Cecilia NoguezCecilia Noguez Curriculum Vitae 9 de marzo de 2018 9 de marzo de 2018Curriculum Vitae:...

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Cecilia Noguez

Curriculum Vitae

9 de marzo de 2018

9 de marzo de 2018 Curriculum Vitae: Cecilia Noguez pagina ii

Contents

DATOS GENERALES 1

FORMACION ACADEMICA 1

EXPERIENCIA PROFESIONAL 1Campo de especialidad 1Puestos academicos en investigacion 2Puestos academicos en docencia 2

MEMBRESIAS EN SOCIEDADES CIENTIFICAS 2

PARTICIPACION EN ORGANOS COLEGIADOS 3Organos colegiados en la UNAM 3Organos colegiados nacionales e internacionales 3Organizacion de reuniones cientı�cas nacionales e internacionales 4Agencias de apoyo a la investigacion cientı�ca como arbitro regular 4

PARTICIPACION EDITORIAL 4Trabajo editorial 4Arbitro regular de las siguientes revistas internacionales 5

PREMIOS, RECONOCIMIENTOS Y DISTINCIONES 5Premios y distinciones academicas 5Otros reconocimientos academicos 6Sistema Nacional de Investigadores (SNI) y Estımulos academicos UNAM (PRIDE) 7Becas 7

CONFERENCIAS, SEMINARIOS Y COLOQUIOS (315) 7Por invitacion (178) 7

– Platicas invitadas internacionales 7– Platicas invitadas nacionales 12– Platicas de divulgacion 15

Presentaciones regulares en congresos (137) 16

PROYECTOS FINANCIADOS 16Responsable (16) 16

9 de marzo de 2018 Curriculum Vitae: Cecilia Noguez pagina iii

Corresponsable (4) 17Participante (12) 17

FORMACION DE RECURSOS HUMANOS 17Cursos Docentes (54) 17Tesis y posdoctorantes 18

– Finalizados (23) 19– En proceso (3) 22

Participacion en examenes de grado como sinodal (38) 22Participacion en examenes generales y predoctorales (6) 24

PRODUCCION CIENTIFICA (96) 24Tabla de publicaciones 24Portadas 25Lista de publicaciones 26

– Revistas indizadas JCR con estricto arbitraje 26– Artıculos en revistas internacionales con estricto refereo no JCR 31– Artıculos en revistas de circulacion local con arbitraje no JCR 32– Capıtulos en libros 32– Memorias en extenso con arbitraje de circulacion internacional 33– Memorias en extenso en espanol 34– Artıculos de divulgacion 34

CITAS (3545) 35Tabla informativa de citas ISI (WoS) & SCOPUS (3545) 35Lista de citas sin autocitas A+B (=3328) 36

LISTA DE TRABAJOS EN CONGRESOS CON PARTICIPACION REGULAR 192

9 de marzo de 2018 Curriculum Vitae: Cecilia Noguez pagina 1

Ana Cecilia Noguez Garrido

DATOS GENERALES

LABORALESNombramiento: Investigadora Titular C, Tiempo Completo, De�nitiva

Sistema Nacional de Investigadores: Investigadora Nacional Nivel IIIPrograma de desempeno academico: PRIDE Nivel D

Domicilio Profesional: Instituto de Fısica, UNAM, Circuito de la Investigacion Cientı�ca s/n, Cd. Uni-versitaria, Cd. Mx. 04510, Mexico

Telefono: ++52–55–5622–5106E-mail: cecilia@�sica.unam.mx

Google Scholar web page: https://scholar.google.com.mx/citations?hl=en&user=9JVn-G0AAAAJ&view_op=list_works

FORMACION ACADEMICA

1995–1996 POSDOCTORADO Posdoctoral Research AssistantInstitucion: Ohio UniversityTema de investigacion: Calculos ab initio de propiedades opticas de clusters y super�cies

1993–1995 DOCTORADO en Ciencias (Fısica)Institucion: Facultad de Ciencias, UNAMFecha de examen: 13 de julio de 1995Tıtulo de tesis: Propiedades opticas de sistemas inhomogeneos de baja

dimensionalidad

1990–1993 MAESTRIA en Ciencias (Fısica)Institucion: Facultad de Ciencias, UNAMExamen: General de ConocimientosFecha de examen: 22 de enero de 1993

1985–1990 LICENCIATURA FısicaInstitucion: Facultad de Ciencia, UNAMFecha de examen: 30 de mayo de 1990Tıtulo de tesis: La respuesta dielectrica de medios compuestos: un nuevo enfoque

EXPERIENCIA PROFESIONAL

Campo de especialidad

Disciplina: Fısica teorica y computacionalSubdisciplina: Estado solido, NanocienciaEspecialidad: Propiedades atomicas, electronicas y opticas de la materia

Investigacion en: Plasmonica, Electrodinamica en Medios Continuos, Quiralidad y Actividad Optica, FuerzasDispersivas, Adsorbcion en Super�cies, Desarrollo de Computo Cientı�co

mailto:[email protected]

https://scholar.google.com.mx/citations?hl=en&user=9JVn-G0AAAAJ&view_op=list_works

https://scholar.google.com.mx/citations?hl=en&user=9JVn-G0AAAAJ&view_op=list_works


Puestos academicos en investigacion

08/2010 – 07/2011 PROFESORA INVITADADepartamento de Quımica, Northwestern University (NU), Financiado por NU y UNAM-DGAPA

08/2005 – vigente INVESTIGADORA TITULAR C de tiempo completo de�nitivaInstituto de Fısica, UNAM, Concurso de oposicion abierto

06/2003 – 08/2005 INVESTIGADORA TITULAR B de tiempo completo de�nitivaInstituto de Fısica, UNAM, Concurso de oposicion cerrado

08/2000 – 12/2000 PROFESORA INVITADADepartamento de Fısica y Astronomıa, Ohio University (OU), Financiado por AMC y OU

01/2000 – vigente DEFINITIVIDAD Investigadora Titular de tiempo completoInstituto de Fısica, UNAM, Concurso de oposicion cerrado

11/1999 – 06/2003 INVESTIGADORA TITULAR A de tiempo completoInstituto de Fısica, UNAM , Concurso de oposicion abierto

10/1995 – 11/1999 INVESTIGADORA ASOCIADA C de tiempo completoInstituto de Fısica, UNAM, Contrato por obra determinada

Puestos academicos en docencia

2002 – vigente Tutora Doctorado, Posgrado en Ciencias Fısicas, UNAM1996 – vigente Tutora Maestrıa, Posgrado en Ciencias Fısicas, UNAM1991 –vigente Profesora de Asignatura, Facultad de Ciencias, UNAM

01/2009 – 06/2009 Profesora de Asignatura, Univ. Iberoamericana2000 – 2009 Tutora Doctorado, Posgrado en Ciencias Fısicas y en Materiales, BUAP

11/1988 – 05/1992 Ayudante de Profesor de Asignatura, Facultad de Ciencias, UNAM

MEMBRESIAS EN SOCIEDADES CIENTIFICAS

2005 American Chemical Society (ACS) 1998 Academia Mexicana de Ciencias (AMC)1998 Sociedad Mexicana de Materiales 1993 American Physical Society (APS)1990 Materials Research Society (MRS) 1988 Sociedad Mexicana de Fısica (SMF)


PARTICIPACION EN ORGANOS COLEGIADOS

Organos colegiados en la UNAM

04/2016 – vigente Miembro del Consejo Asesor de la DGTIC08/2015 – 08/2016 Representante titular del personal academico del IFUNAM ante el Consejo Tecnico de la In-

vestigacion Cientı�ca08/2015 – 04/2016 Miembro de la CAAA del Consejo Tecnico de la Investigacion Cientı�ca06/2012 – 07/2015 Representante suplente del personal academico del IFUNAM ante el Consejo Tecnico de la

Investigacion Cientı�ca08/2012 – 06/2015 Miembro del Consejo Asesor de Computo IFUNAM06/2011 – 06/2013 Miembro de la comision evaluadora del PRIDE de la DGTIC06/2009 – 05/2011 Miembro de la comision evaluadora del PRIDE de la DGSCA04/2006 – 05/2010 Coordinadora del paquete de materias de Estado Solido, Materia Condensada y Nanociencias,

Posgrado en Ciencias Fısicas2003 –2010 Organizacion de la Red de Grupos de Investigacion en Nanociencia, REGINA–UNAM

2005 Participacion en el Diseno Curricular y Determinacion de Contenidos para la Universidad dela Cienega del Estado de Michoacan de Ocampo: carrera de Nanotecnologıa, colaboracioncon el Centro de Estudios sobre la Universidad, UNAM

2003 – 2010 Miembro de la comision de becas del Instituto de Fısica, UNAM06/2001 – 05/2002 Representante del Departamento de Estado Solido ante el Consejo Interno del IFUNAM06/2000 – 05/2001 Representante suplente del Departamento de Estado Solido ante el Consejo Interno del IFU-

NAM

Organos colegiados nacionales e internacionales

01/2017 – vigente Miembro del Consejo Consultivo de Ciencias (CCC) de la Presidencia de la Republica01/2016 – vigente Comision dictaminadora externa del Instituto Nacional en Astrofısica, Optica y Electronica

(INAOE)11/2014 – vigente Comision dictaminadora externa del Centro de Investigaciones en Optica A.C. (CIO)10/2013 – vigente Miembro del Molecular Foundry Proposal Study Panel at Lawrence Berkeley National

Laboratory04/2016 Miembro del comite de evaluacion de Laboratorios Nacionales del CONACyT02/2016 Miembro del comite de evaluacion de Laboratorios Nacionales del CONACyT

03-05/2015 Miembro del comite de evaluacion de Laboratorios Nacionales del CONACyT05/2014 Miembro del comite de evaluacion de Laboratorios Nacionales del CONACyT10/2013 Miembro del comite de evaluacion y segumiento de Laboratorios Nacionales del CONACyT,

06/2012 – 06/2014 Comision de premios de la Academia Mexicana de Ciencias11/2009 – 06/2016 Miembro del Consejo Tecnico Academico de la Red Tematica de Nanociencias y Nanotecno-

logıa, CONACyT09/2011 – 11/2012 Presidenta del comite de evaluacion de Laboratorios Nacionales del CONACyT

2008 – 2012 Miembro del Comite Cientı�co del ICPCNanoNet Steering Group10/2008 – 10/2010 Tesorera de la Division de Nanociencias y Nanotecnologıa (DINANO) de la Sociedad Mexicana

de Fısica2005 – 2016 Miembro del Scienti�c Advisory Board de Nanopolis


Organizacion de reuniones cientı�cas nacionales e internacionales

2018 Chair del International Materials Research Congress XVII2016 Symposium Hybrid and Bio-Inspired Plasmonic Materials en el XXV IMRC, Cancun Mexico2015 Symposium Frontiers in Plasmonic Materials en el XXIV IMRC, Cancun Mexico2015 Comite tecnico del Programa Cientı�co del 11th International Symposium on Optics of Surfaces and Inter-

faces (OSI-X 2013), Austin, Texas2013 Miembro del comite cientı�co del 10th International Symposium on Optics of Surfaces and Interfaces (OSI-X

2013), en Chemnitz, Germany2011 Presidenta del comite organizador del 9th International Symposium on Optics of Surfaces and Interfaces

(OSI-IX 2011), Akumal Mexico del 18 al 23 de Septiembre2010 Vicepresidenta del comite organizador del 15th International Symposium on Small Particles and Inorganic

Clusters (ISSPIC-XV 2010)2006 Miembro del Comite Cientı�co de la reunion Ciencia Mujer 20062006 Organizadora del Simposio homenaje a Prof. Sergio E. Ulloa por su ingreso como miembro correspondiente

a la Academia Mexicana de Ciencias2002 Organizadora del Simposio en honor a Ruben G. Barrera Instituto de Fısica, UNAM2001 Organizadora del taller Workshop on parallel programing using MPI Message-Passing Library, 29 de mayo

al 5 de junio, IFUNAM1998 Co-organizadora del simposio Theory and Computer Simulation of Materials - Electronic Structure and

Optical Properties, dentro del congreso International Materials Research Congress (IMRC), Cancun Mexico1998 Co-organizadora del “Taller de propiedades mecanicas, electricas y opticas”, dictado por el Dr. James

Berryman del Lawrence Livermore National Laboratory. Instituto de Fısica, UNAM enero.96/97 Organizadora del Seminario Semanal del Departamento de Estado Solido del IFUNAM

Agencias de apoyo a la investigacion cientı�ca como arbitro regular

a partir del ano en que se indica

2011 FONCyT, Argentina 2010 National Science Foundation, USA2008Universidad Nacional de Colombia 2005 The Netherlands Foundation for Fundamental Research on Matter2003 Universidad Autonoma de Puebla 2003 Sociedad Mexicana de Fısica2002 Proyectos PAPIIT DGAPA, UNAM 1998 Proyectos de Ciencia Basica, CONACyT

PARTICIPACION EDITORIAL

Trabajo editorial

01/2018 – vigente Editora asociada de la revista Optical Materials (Elsevier)08/2014 – vigente Editora asociada de la revista Journal of Nanoparticle Research (Springer-Nature)06/2012 – vigente Editora de la revista Ciencia de la Academia Mexicana de Ciencias2016 Editora huesped de la revista Ciencia, volume 67, numero 32012 Editora huesped de la revista physica status solidi (b), volume 249, numero 603/2011 – 2017 Miembro del Consejo Editorial de la Revista Internacional ISRN Nanotechnology2009 – 2017 Miembro del SCIYO Scienti�c Advisory Board2011 Editora huesped de la revista European Physical Journal D, volumen 63, numero 2


Arbitro regular de las siguientes revistas internacionalesa partir del ano en que se indica (deje de contar en 2012)

2011 Nano Letters 2012 J Nanopart. Research2010 Gold Bulletin 2010 Int J of Spectroscopy2010 J of Materials Science 2010 Surface Science2010 Applied Optics 2010 Langmuir2010 Sensors & Actuators: A. Physical 2010 J Molecular Structure-Teochem2010 J of Colloid and Interface Science 2010 Materials2010 Current Physical Chemistry 2010 Opto-Electronics Review2010 Journal of Applied Polymer Science 2010 Rapid Research Letter2010 Optics Letters 2009 Journal of Optics2009 Physica Status solidi b 2009 Optics Express2009 J. Physical Chemistry Letters 2009 Journal of Applied Physics2009 Materials Sci. and Engineering B 2009 Plasmonics2009 Euro Physics Letters 2009 Crystal Research and Technology2009 Applied Surface Science 2008 Current Nanoscience2008 Clinica Chimica Acta 2008 Nanotechnology2008 Applied Physics Letters 2008 European Phys. J. D2008 Accounts of Chemical Research 2008 Physical Review A2008 New Journal of Physics 2007 Materials Chemistry and Physics2007 Chemical Physics Letters 2007 ACS Nano2007 J. Nanoscience and Nanotechnology 2007 Journal of Physical Chemistry2007 Journal of Chemical Physics 2006 Journal of Physics D2006 Nature Nanomaterials 2005 Journal of Physics: Cond. Matter2005 Journal of Physics A 2005 Physical Chem. Chem. Phys.2005 Journal Am. Chem. Society 2004 Journal of Physical Chemistry B2004 Chemistry of Materials 2003 Revista Mexicana de Fısica1997 Physical Review Letters 1996 Physical Review B

PREMIOS, RECONOCIMIENTOS Y DISTINCIONES

Premios y distinciones academicas

2016 Premio Nacional de Ciencias en el area Ciencias Fısico-Matematicas y Naturales, Gobierno de la RepublicaMexicana.

2015 Reconocimiento como una de las academicas de carrera en la UNAM mas citadas en la literatura cientı�caen el area de fısica en el 2014 segun SCOPUS, UNAM

2015 Reconocimiento: Juan Manuel Lozano Mejıa a la direccion de tesis de doctorado, Instituto de Fısica, UNAMdiciembre

2014 Reconocimiento como una de las academicas de carrera en la UNAM mas citadas en la literatura cientı�ca(en el area de fısica en el 2013 segun SCOPUS, UNAM

2013 Reconocimiento como una de las academicas de carrera en la UNAM mas citadas en la literatura cientı�caen el area de fısica en el 2012 segun SCOPUS, UNAM

2012 Reconocimiento Sor Juana Ines de la Cruz, UNAM


2010 Premio Ciudad Capital: Heberto Castillo Martınez, Edicion “Bicentenario de la Independencia y Centenariode la Revolucion en la Ciudad de Mexico”, Premio para cientı�cas mexicanas destacadas, otorgado por elGobierno del Distrito Federal en colaboracion con la Academia Mexicana de Ciencias para Cientı�cas de 45anos o menos

2009 Premio Thomson Reuters al artıculo mexicano mas citado en quımica (nanociencia). Estos premios reconocena los autores lıderes de trabajos desarrollados en Mexico que han sido mas citados en su categorıa deinvestigacion original en los ultimos diez anos

2009 Premio de Investigacion en el area de Ciencias Exactas otorgado por la Academia Mexicana de Ciencias

2008 Reconocimiento a la direccion de la mejor tesis doctoral en Ciencia e Ingenierıa de Materiales del certameninternacional IIM-UNAM de la alumna Ana Lilia Gonzalez Ronquillo

2008 Premio Weizmann en Ciencias Exactas a la alumna de doctorado Ana Lilia Gonzalez Ronquillo a la mejortesis doctoral otorgado por la Academia Mexicana de Ciencias

2006 Reconocimiento a la direccion de la mejor tesis doctoral en Ciencia e Ingenierıa de Materiales del certameninternacional IIM-UNAM de la alumna Xochitl Lopez Lozano

2006 Reconocimiento “Distincion Universidad Nacional para Jovenes Academicos” en el area de Ciencias Exactas2006, UNAM

1999 Miembro regular de la Academia Mexicana de Ciencias (AMC)

1999 Premio del Fondo “Ricardo J. Zevada” a proyectos de investigacion en Ciencias Exactas a Jovenes Cientı�cos1999-2000

1997 El trabajo Theoretical and experimental optical spectroscopy study of hydrogen adsorption at Si(111)-7×7,por Cecilia Noguez, et al., Physical Review Letters 76, 4923 – 4926 (1996), fue seleccionado por el InstitutoNacional de Fısica de la Materia (INFM) de Italia como trabajo de excelencia

1996 Premio Weizmann en Ciencias Exactas a la mejor tesis de doctorado otorgado por la Academia Mexicanade Ciencias

1996 Medalla Gabino Barreda a la mejor alumna del Doctorado en Ciencias (Fısica), UNAM

Otros reconocimientos academicos

2012 El artıculo Surface Plasmons on Metal Nanoparticles: The In�uence of Shape and Physical Environment,Cecilia Noguez, Journal of Physical Chemistry C 111 (10) 3806 – 3819 (2007), fue uno de los cinco artıculosmas citados desde su publicacion hasta los 5 anos posteriores. Actualmente es la publicacion realizada enMexico por un solo autor con mas citas en tres disciplinas diferentes: la fısica, la quımica y la ciencia demateriales.

2012 El artıculo Plasmonic Optical Properties and Applications of Metal Nanostructures, Jin Z. Zhang, CeciliaNoguez, Plasmonics 4, 127 – 150 (2008), esta dentro de los cuatro artıculos mas citados desde su publicacionhasta los 5 anos posteriores. Actualmente es uno de los 10 artıculos mas citados de la revista.

2011 Nominada al premio The Ernesto Illy Trieste Science Prize de la TWAS por Northwestern University y la UNAM

2010 El artıculo Optical Properties of Isolated and Supported Metal Nanoparticles, Cecilia Noguez, en el OpticalMaterials 27, 1204 – 1211 (2005), fue el segundo artıculo mas citado de la revista desde su publicacion hastalos 5 anos posteriores.


Sistema Nacional de Investigadores (SNI) y Estımulos academicos UNAM (PRIDE)

PRIDE SNI

2006 – 2020 Nivel D (maximo) 2011 – 2021 Nivel III (maximo)1999 – 2006 Nivel C 2002 – 2010 Nivel II1995 – 1999 Nivel B 1996 – 2002 Nivel I

1994 – 1996 Candidato

Becas

07/2000–10/2000 Estancia de verano Fundacion Mexico–Estados Unidos para la Ciencia y Academia Mexicanade Ciencias

1993 – 1995 Estudios de doctorado DGAPA-UNAM1991 – 1993 Ayudante de Inv. Nacional nivel III1990 – 1992 Estudios de maestrıa DGAPA-UNAM1986 – 1990 Estudios de licenciatura DGAPA-UNAM1983 – 1984 Estudios de preparatoria, sistema incorporado UNAM

CONFERENCIAS, SEMINARIOS Y COLOQUIOS (315)

Por invitacion (178)

– Invitaciones internacionales . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 86– Invitaciones nacionales . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 72– Invitaciones en otros eventos . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 20

– Platicas invitadas internacionales

2018 Invitada Gordon Research Conference Noble Metal Nanoparticles GRC at Mount Holyoke College, South Hadley, MAduring the week of June 17-22. Programada.

2018 Plenaria Simposio Latinoamericano de Fısica del Estado Solido XXIII, SLAFES XXIII, Bariloche, Argentina 10-13 abril.Programada.

2017 Panelista On the Ground: Learning from Successful Initiatives. Gender Summit 11. November 6 to 8, Montreal, Quebec.

2017 Plenaria X International Conference on Surfaces, Materials and Vacuum, September 25th to 29th, Ciudad Juarez,Chihuahua.

2017 Panelista Mission Innovation Expert Workshop on Energy Materials Innovation. Mexican Ministry of Energy and the U.S.Department of Energy. Mexico City on 11–14 September.

2017 Plenaria Mexican Optics and Photonics Meeting 2017 in Tonantzintla, Puebla, Mexico on September 6 to 8.

2017 Conference Symposium Nano-alloys: Theory, Synthesis & Characterization taking place within XXVI IMRC to be held20-25 August in Cancun Q. Roo, Mexico.

2017 Conference Symposium Biomedical Applications of Nanoparticles taking place within XXVI IMRC to be held 20-25August in Cancun Q. Roo, Mexico.


2017 Conference Optics of Surfaces and Interfaces (OSI-12), to be held June 25-30, in Dublin, Ireland .

2017 Coloquio Leibniz-Institut fur Analytische Wissenscha�en ISAS e.V., June 22, in Berlin, Germany.

2017 Coloquio Zernike Institute for Advanced Materials, June 20, in Universidad de Groeningen, Holanda.

2017 Conference Mexican-Italian Nanophotonics Workshop (MINW) 16-20 January at Tequisquiapan, Queretaro, Mexico.

2017 Conference XLVI edition of the Winter Meeting of Statistical Physics WMSP-2017 will take place in Hotel Monte Taxco,in Taxco Guerrero, Mexico, from the 8th to 11th of January. Declinada.

2016 Conference 6th Mexican Workshop on Nanostructured Materials (MWNM) which will be held during October 12-14, atPuebla Mexico.

2016 Distinguished Speaker Latin America Optics and Photonics LAOP 2016 Medellin, Colombia from August 22nd to August25th. Declinada.

2016 Conference VI Leopoldo Garcia–Colin Mexican Meeting on Mathematical and Experimental Physics, Colegio Nacionalin Mexico Cit, September 5 – 9.

2016 Conference Frontiers in Computational Chemistry, School of Chemistry of the National Autonomous University of Mexico(UNAM) in Mexico City will be held on August 24 and 25.

2016 Conference META16, the 7th International Conference on Metamaterials, Photonic Crystals and Plasmonics, Torremolinos– Malaga, Spain, from 25 to 28 July.

2016 Discussion Leader Gordon Research Conference: Noble Metal Nanoparticles June 19–24, Mount Holyoke College, SouthHadley, MA.

2016 Conference Workshop in Nanotechnology and Advanced Materials CONACYT-CNR Italy, 11 – 15 April

2015 Conferencia Energy, Materials, and Nanotechnology, EMN Fall Meeting, from November 16 to 20, Las Vegas, Nevada.

2015 Conferencia Mexican Optics and Photonics Meeting, Leon Guanajuato, Mexico September 9–11.

2015 Conferencia 7o Taller Chile-Mexico sobre Magnetismo, Nanociencias y sus Aplicaciones, Arica Chile 3–7 Septiembre.

2015 Conferencia Spintronics 60, August 7–8, Cancun, QR, Mexico.

2015 Coloquio Enhancing mechanisms of optical activity of chiral molecules adsorbed in metallic nanoparticles, Air ForceResearch Laboratory, Materials & Manufacturing Directorate, Wright-Patterson Air Force Base, Dayton Ohio, 29 Mayo

2014 Conferencia 2014 Energy Materials Nanotechnology (EMN) Fall Meeting, from November 22 to 25, 2014 at Orlando,Florida.

2014 Tutorial Latin America Optics & Photonics Conference (LAOP) 16 - 21 November 2014, Cancun, Mexico.

2014 Conferencia 8th International Meeting on Photodynamics and Related Aspects, Oaxaca, Mexico, 26-31 October 2014.

2014 Conferencia XXIII INTERNATIONAL MATERIALS RESEARCH CONGRESS 2014, Simposium Materials Relevance in Fluctuation-induced Interactions, Cancun, Mexico 17 – 21 August 2014.

2014 Conference Epioptics-13 in Erice, Italy July 2014, 26 - August 2014.

2013 Coloquio Optically Active Metal Nanoparticles en Leibniz Institute for Analytical Sciences -ISAS- e.V. in Berlin, Germany,September 16


2013 Conferencia Plasmonics: Fundamentals and Applications en 10th International Conference on Optics of Surfaces andInterfaces (OSI 10) hosted in Chemnitz, Germany, September 8-13

2013 Conferencia Mapping Structural and Plasmonic Properties of Gold Nanoparticles en “2013 Progress in ElectromagneticsResearch Symposium”(PIERS 2013 Stockholm) Symposium Special Session Advanced Techniques in Nanoelectromag-netics Applications. Stockholm, Sweden, on August 12-15

2013 ConferenciaThe 4th Annual World Congress of NanoMedicine during June 5-7, Suzhou, China. Declinada

2012 Conferencia Second International Conference on Small Science (ICSS 2012), 16-19 December at Walt Disney World Swanand Dolphin hotel, Orlando Florida, USA. Declinada

2012 Conferencia Plasmonic nanostructures and applications en Workshop within the PASI program on “Frontiers in CasimirPhysics”, October 6-17, Ushuaia, Argentina

2012 Plenaria Plasmonics: Manipulating light at the nanoscale en el XXI IMRC, Cancun Mexico, August 12-17

2012 Conferencia EPIOPTICS-12, NANOLUM-3 24-29 July, International School of Solid State Physics, Erice Italia. Declinada.

2012 Conferencia Plasmonics and electromagnetic �eld enhancement in metal nanoparticles Simposio 1C ”NanostructuredMaterials and Nanotechnology.en el XXI IMRC, Cancun Mexico, August 12-17

2012 Conferencia Plasmonica: manipulando luz con nanopartıculas en Taller Binacional Mexico-Argentina en Nanotecno-logıa, Junio, 21-22

2012 Plenaria Plasmonics and electromagnetic �eld enhancement in metal nanoparticles en Nanomex 2012, Puebla, Pueblafrom Jun. 11–13

2012 Conferencia Designing the Plasmonic Response of Metal Nanoparticles en Pan American Advanced Studies Institute(PASI) on Computational Materials Science for Energy Generation and Conversion held in Santiago, Chile from Jan.9-20

2011 Conferencia Designing the Plasmonic Response of Metal Nanoparticles en First Meeting of the American Initiative onMetal Clusters and Nanoalloys, November 16 to 18, San Antonio Texas.

2011 Conferencia Quantum Calculations of Optical Activity in Chiral Nanostructures, Conference on Computational Physics,Glatinburg Tennessee, USA, 30th October – 3rd November

2011 Lecturer Winter School J.J. Giambiagi on Nanophotonics at Departamento de Fisica de la Facultad de Ciencias Exactasde la Universidad de Buenos Aires, July 18–22 Declinada.

2011 Plenaria Designing the plasmonic response of noble metal nanoparticles, Nanotech 8, Tuxtla Gutierrez Chiapas, May23 –25

2011 Seminario Designing the plasmonic response of noble metal nanoparticles, Northwestern University, Materials ResearchScience and Engineering Center, January 20th

2010 Plenaria In�uence of morphology on the optical properties of metal nanoparticles, Molecular Modelling – 2010:Advances in Biomolecular and Materials Modelling, which will be held in Melbourne, Australia from the 28th Novemberto 1st December

2010 Seminar Designing the plasmonic response of noble metal nanoparticles at University of Technology of Sidney, Aus-tralia, 23th December

2010 Seminar at School of Chemistry, The University of Melbourne, Australia, December 2nd, Declinada.


2010 Coloquio Designing the plasmonic response of noble metal nanoparticles, University of Notre Dame, Department ofChemistry and Biochemistry December 9th

2010 Coloquio Designing the plasmonic response of noble metal nanoparticles, Northwestern University, Materials ResearchCenter, November 9th

2010 Plenaria at XXX Annual Meeting International Conference on Surfaces, Materials and Vacuum 2010, September 27 toOctober 1st, Mexico Declinada

2010 Coloquio Into the origin of optical activity of gold nanoparticles and carbon nanotubes, Ohio University , Departmentof Physics and Astronomy October 14th

2010 Discussion Leader en la Gordon Research Conference: Noble Metal Nanoparticles, Preparation, Modeling and Applica-tions June 20-25, Mount Holyoke College, South Hadley, MA

2010 Conferencia Tuning surface plasmons in multishell metal nanoparticles, SPIE’s event Photonics Europe Brussels, Belgica12 –16 April

2010 Conferencia at BIT’s 1st Annual World Congress of Catalytic Asymmetric Synthesis-2010, May 19-21, Beijing, China.Declinada

2010 Conferencia International Conference on Nanomaterials: Synthesis, Characterization and Applications (ICN-2010) April27- 29 at Mahatma Gandhi University, Kottayam, Kerala, India. Declinada

2009 Conferencia Chirality at the Nanoscale, Optics of Surfaces and Interfaces VIII, Ischia, Italy 7 -11 September

2009 Conferencia Into the origin of optical activity of ligand-protected gold nanoparticles Symposium Protected MetallicClusters, Quantum Wells and Metal-nanocrystal Molecules, American Chemical Society 238th National Meeting 16–20August, Washington DC EU.

2009 Conferencia Academic situation in Mexico on Nanoscience and Nanotechnology, with emphasis on UNAM and REGINA,The �rst annual ICPCNanoNet workshop, June 1st, Praga, Republica Checa

2009 Conferencia Optically active nanoparticles Reunion Internacional Nanociencias, Monterrey 2009, Nuevo Leon. 19-22Mayo

2009 Seminario Optical properties of nanoparticles Department of Physics & Astronomy, University of Texas at San Antonio,Texas, EU, Abril 14

2009 Seminario Optical Porperties of Nanoparticles en Department of Chemistry and Biochemistry, Windsor University,Ontario Canda, March 13

2008 Conferencia Plasmonics en International Workshop on Advanced Materials for Optoelectronics and Related Physics(AMORPHY), INAOE, Puebla, October 5-11

2008 Conferencia Optical circular dichroism of bare and passivated Au nanoclusters en International Symposium onMonolayer-Protected Clusters, Nanoscience Center, University of Jyvaskyla, Finland, September 12-13

2008 Conferencia Circular dichroism of nanotubes and gold clusers EPIOPTICS-10 International School of Solid State Physics,Erice-Sicily, 20-27 June

2008 Seminario Surface Plasmon Resonances on Metal Nanoparticles, Air Force Research Laboratory, Materials & Manufac-turing Directorate, Wright-Patterson Air Force Base, Ohio, 25 Enero


2007 Conferencia Redes en nanotecnologıa, Encuentro Nano Mercosur 2007, 7 – 9 de agosto, Buenos Aires, Argentina.Organizado por la Fundacion Argentina de Nanotecnologıa

2007 Conferencia Optical properties of nanoparticles, Celebrando a Carmen Varea, IFUNAM, Mexico, Noviembre 29-30

2007 Conferencia Surface plasmon resonances on metal nanoparticles, 2a Reunion Nacional de La DINANO, Boca del Rıo,Veracruz, Mexico, 30 y 31 de mayo y 1 de junio

2006 Seminario In�uence of geometry in the surface plasmon resonances of nanoparticles, INFM, Department of Physics,University of Rome Tor Vergata, Italia, 20 de enero

2006 Conferencia Plasmones de super�cie en nanopartıculas metalicas, Atomos, untos cuanticos y nanoestructuras, Simposiohomenaje a Sergio E. Ulloa, 18 de septiembre, Mexico D. F.

2006 Conferencia Surface plasmon resonances on metal nanoparticles, Trends on Novel Materials Workshop, 16-20 octubre,Santa Marta Colombia.

2005 Conferencia Optical properties of metallic nanoparticles, Scanning Probe Microscopy, Sensors, & Nanostructures, Can-cun, Mexico del 4 al 8 de junio

2005 Conferencia Recent results on nanocomposites, “Una platica con Harold Kroto, Premio Nobel de Quımica 1996”, IFUNAM,21 de septiembre

2005 Conferencia Presentation of REGINA-UNAM, “Una platica con Harold Kroto, Premio Nobel de Quımica 1996”, IFUNAM,21 de septiembre

2004 Conferencia Optical properties of chiral nanostructures, International Workshop on Nanoscience, Mexico D.F. 27 y 28de mayo

2004 Conferencia Propiedades opticas de Nanoestructuras, Nanostructures Materials and Nanotecnology dentro IV SemanasNacionales de Cristalografıa, Leon Guanajuato, del 22-24 septiembre

2004 Conferencia Optical properties of nanoestructures, XII International Materials Research Congress dentro del simposioNanostructured Materials and Nanotechnology, Cancun Mexico, 22-26 de agosto

2004 Conferencia Propiedades opticas de nanoestructuras quirales, sesion de calculos teoricos del XXIV Congreso de laSociedad Mexicana de Ciencia y Tecnologıa de Super�cies y Materiales, Riviera Maya, del 27 al 30 de septiembre

2003 Conferencia Casimir e�ect on nanoparticles Mini simposio homenaje a Ruben G. Barrera. Centro de Ciencias Fısicas,UNAM, 7 de abril

2001 Conferencia Rheological properties of suspensions, INTERNATIONAL MATERIALS RESEARCH CONGRESS: CANCUN, Trabajorealizado con: R. Esquivel-Sirvent, y G. Ramırez.

2000 Seminario Substrate e�ects in the optical properties of spheroidal nanoparticles, CMSS Colloquium, Mayo, Ohio Uni-versity.

1994 Seminario Optical properties of semiconductors surfaces: Si(111)-7×7, Seminario del programa de Materia Condensaday Ciencias de Super�cies, Ohio University, 26 de octubre

1993 Seminario Optical properties of 1D composites Seminario de Estructura de la Materia, Departamento de Fısica, Uni-versidad de Roma II, Roma, Italia, 3 de junio


– Platicas invitadas nacionales

2017 Conferencia 3a Reunion “Construyendo el futuro- Encuentros de Ciencia” organizado por la Academia Mexicana deCiencias. 21–24 noviembre Morelia, Michoac·n

2017 Seminario Mexico-China Workshop on NANO, Agosto 16.

2017 Seminario Sotero Prieto IFUNAM, Agosto 16.

2017 Coloquio Cinvestav, Junio 1.

2017 Coloquio UAM Azcapozalco, Mayo 17.

2017 Coloquio Posgrado en Ciencias Fısicas, UNAM. Mayo 9.

2017 Coloquio Plasmonica: Comprimiendo Luz a la Nanoescala. Unidad Academica de Fısica, Universidad Autonoma deZacatecas, 27 de abril.

2017 Conferencia Reunion Anual de la Division de Estado Solido, Sociedad Mexicana de Fısica 27 al 29 de abril COZCyT,Zacatecas, Zac.

2017 Seminario III Simposio del Capıtulo Estudiantil CFATA, UNAM. Marzo 31.

2017 Magistral Universidad de Guanajuato, “ Mujeres en la Ciencia: Retos y Oportunidades hacia el 2030”. Marzo 28.

2017 Coloquio Instituto de Ciencias Fısicas, UNAM. Marzo 15.

2017 Seminario Departamento de Fısica, Universidad de Sonora. Febrero 8.

2017 Charla Jovenes estudiantes de las escuelas: Prepa Tepito, BAU Atzcapozalco y BAU Teatro del Pueblo. Secretario deEducacion de la Ciudad de Mexico. Mexico. Enero 31.

2017 Panel NINASTEM PUEDEN: Red de Mentoras OCDE-Mexico para Promover el Espıritu STEM en las Ninas y JovenesMexicanas. OCDE-SEP. Mexico. Enero 9.

2016 Coloquio Instituto de Fısica “Grafeno Quiral”, 27 Octubre.

2016 Conferencia Mexican Academy of Science “Fısica en Ciencia y Humanismo II”, 24 – 26 August.

2016 Coloquio Actividad optica a escala nanometrica, Instituto de Fısica, Universidad Automona de San Luis Potosı, 2 demarzo

2015 Conferencia Luz a escala nanometrica, XV Semana de geologıa, Minerıa, Metalurgia y Materiales, Universidad Automo-na del Estado de Hidalgo, 9 de octubre

2015 Conferencia Luz a escala nanometrica, Programa Conferencias Premios de Investigacion de la Academia 2015, Junio 4.

2015 Conferencia Luz a escala nanometrica, Programa Conferencias Premios de Investigacion de la Academia 2015, Junio 4.

2015 Seminario Luz a escala nanometrica, Ano Internacional de la Luz, INAOE, Junio 10.

2015 Conferencia nanotecnologıa, presente y futuro GeneraciUn 58 de la Facultad de Ingenierıa de la UNAM, Mexico D.F.24 de marzo.

2014 Magistral Plasmonica: luz a la nanoescala, XXIV Congreso Tecnico-Cientı�co del ININ-SUTIN, 3 de diciembre.


2014 Plenaria Plasmonica, campo cercano y espectroscopias aumentadas, CICATA Legaria, 16 de octubre.

2014 Plenaria Plasmonica: Manipulando luz a escala nanometrica., Congreso Nacional de Fısica, 5–10 de octubre.

2014 Coloquio Plasmonica, campo cercano y espectroscopias aumentadas, Instituto de Ciencias Fısicas, UNAM, 2 de abril

2014 Seminario Plasmonica, campo aumentado y espectroscopias, Seminario Sotero Prieto, IFUNAM, 29 de enero

2013 Conferencia Manipulando luz a escala nanometrica, Universidad Autonoma del Estado de Mexico en el marco de lasemana de Nanoquımica, Toluca, Mexico, 30 de octubre

2013 Seminario Nanopartıculas Metalicas Opticamente Activas, Seminario del XXIII Aniversario, IF-BUAP, 20 de septiembre

2013 Panelista Algunas tendencias en la Fısica: Analisis del estado del arte de la nanociencia mexicana, en Hacia donde vala Ciencia en Meexico, 17 abril Univ. de Guanajuato campus Leon.

2013 Seminario Con�guracion absoluta de nanotubos de carbono, Seminario Sandoval Vallarta, IFUNAM, 17 de mayo

2013 Seminario Plasmonica: Fundamentos y aplicaciones, 17 abril Univ. de Guanajuato campus Leon.

2013 Seminario Divisioon de Materiales Avanzados del Instituto Potosino de Investigacioon Cientı�ca y Tecnologica (IPICYT),13 de marzo

2012 Seminario Programa de Ingenierıa Molecular (PIM), en el Instituto Mexicano del Petroleo (IMP), 9 de agosto

2012 Conferencia Grandes Retos del Siglo XXI, Difusion Cultural UNAM, 21–25 mayo Ciudad de Mexico

2012 Conferencia III CONGRESO NACIONAL DE CIENCIA E INGENIERIA EN MATERIALES, Merida, del 27 de Febrero al 2 de Marzo

2012 Seminario Dicroısmo circular optico de nanopartıculas, Seminario Sandoval Vallarta, IFUNAM, 27 de enero

2012 Conferencia Cuando el futuro de la nanotecnologıa nos alcance, Evento Ciencia y Sociedad, Academia Mexicana deCiencias. Enero 18 al 20

2010 Coloquio Nanopartıculas opticamente activas, UAM-I, Junio

2010 Coloquio Nanopartıculas opticamente activas, CINVESTAV, Marzo

2010 Conferencia Magistral Nanociencia y nanotecnologıa, Avances de las Mujeres en las ciencias, humanidades y todaslas disciplinas: II Congreso Nacional, Marzo

2009 Conferencia Nanopartıculas opticamente activas, 4o. Encuentro Internacional de Nanotecnologıa, Centro Universitariode los Lagos, de la Universidad de Guadalajara, 27-29 Julio

2008 Conferencia Nanotecnologıa, Camara de Diputados del H. Congreso de la Union, 30 de septiembre

2007 Conferencia Comportamiento optico de partıculas en escala nanometrica, IV Encuentro de la participacion de la mujeren la Ciencia, 24-25 mayo

2007 Seminario Propiedades opticas de nanopartıculas, Seminario Sandoval Vallarta, IFUNAM, 27 /04

2007 Conferencia Nanociencia y nanotecnologıa, Dıa de puertas abiertas del IFUNAM, 8 de noviembre

2007 Conferencia ¿Como se ven las nanopartıculas?, Coloquio del Posgrado en Ciencias Fısicas, 24/02

2007 Panelista Tecnologıas precursoras como fuente de conocimiento, empleo y competitividad: nanotecnologıa 4◦ semi-nario regional de innovacion. Foro Consultivo Cientı�co y Tecnologico. Agosto 27, Toluca Edo. de Mexico


2007 Panelista El Desarrollo de la Nanociencia en Mexico, dentro del programa de la 2a Reunion Nacional de La DINANO,Boca del Rıo, Veracruz, Mexico, 30 y 31 de mayo y 1 de junio

2006 Panelista El Futuro de la Fısica en el Instituto, Congreso Anual Interno, Octubre

2005 Panelista Identi�cation of potential areas for bi-national collaboration in nanoscience/nanotechnology, “Workshop onperspectives for bi-national collaboration on nanoscience”, May 19th, San Luis Potosı, S. L. P. Mexico

2004 Conferencia Propiedades opticas de nanoestructuras quirales, 3a. Reunion de Nanociencia y Nanotecnologıa, San LuisPotosı, Mexico 21-23 mayo

2004 Seminario Propiedades opticas de nanoestructuras Seminario Sotero Prieto-REGINA, IFUNAM, 23 de junio

2004 Seminario Propiedades opticas de nanopartıculas, Instituto de Ciencias Nucleares, 20 de octubre

2004 Conferencia Estudio de la quiralidad de nanotubos por medios opticos, XLVII Congreso Nacional de Fısica, HermosilloSonora, 25-29 octubre

2003 Conferencia Fısica computacional de nanomateriales, Ceremonia-simposio para la inauguracion del nuevo cluster(ultra-�s), IFUNAM, 26 de noviembre

2003 Conferencia Observando atomos con luz, Una Mirada al Posgrado en Ciencias Fısicas, Fac. de Ciencias UNAM, 19 dejunio

2003 Seminario Fuerzas dispersivas en sistemas a escala nanometrica Seminario Sotero Prieto, IFUNAM, 2 de julio

2003 Conferencia Observando atomos con luz, Escuela de Verano de Fısica, IFUNAM, 14 de julio

2003 Conferencia Fısica computacional de nanomateriales, Dıa de puertas abiertas del IFUNAM, 12 de noviembre

2003 Seminario Efecto casimir en nanopartıculas Seminario Sotero Prieto, IFUNAM, 9/04

2002 Seminario Fuerzas de Casimir entre una nanopartıcula y un substrato: mas alla de la aproximacion dipolar TallerSeminario de Gravitacion y Fısica Cuantica, IFUNAM noviembre

2001 Seminario Efectos no lineales en propiedades reologicas de suspensiones, SEMINARIO MANUEL SANDOVAL VALLARTA,IFUNAM, 25 mayo

2001 Seminario Carcaterizacion optica de nanopartıculas Seminario ”Fronteras de la Fısica”, Centro de Ciencias Fısicas,UNAM, 19 septiembre

1998 Conferencia Calculos de primeros principios de las propiedades opticas de solidos, Escuela de otono de QuımicaComputacional, DGSCA-UNAM, 3-27 noviembre

1998 Seminario Perdida de energıa electronica en sistemas anisotropicos, Seminario, Instituto de Fısica, BUAP, 6 noviembre

1997 Seminario Calculos microscopicos de las propiedades opticas de medios inhomogeneos, Seminario M. Sandoval Va-llarta, IFUNAM, enero

1996 Seminario Dinamica Molecular y Propiedades Opticas de Cumulos de Silicio, Seminario de Estado Solido ”SoteroPrieto”, IFUNAM 26 junio

1996 Seminario Estructura y propiedades opticas de cumulos de silicio, Seminario, Instituto de Fısica, BUAP, 13 septiembre

1995 Seminario Propiedades opticas de super�cies semiconductoras, Seminario de Sistemas Dinamicos y Complejos, IFU-NAM, junio


1995 Seminario Super�cies de diamante, Seminario de Estudiantes Carlos Graef, IFUNAM, 6 julio

1994 Seminario Transiciones electronicas en Si(111) reconstruido 7×7, Seminario de Estado Solido ”Sotero Prieto”, IFUNAM,24 de agosto

– Platicas de divulgacion

2017 Platica de divulgacion en el CCH Sur, impartida el 12 de octubre. Dentro del programa Premios Nacionales.

2016 Platica de divulgacion en el museo de la Luz, impartida el 26 de noviembre, dentro de la presentacion del numero dela revista Ciencia ”Y se hizo la luz”de la AMC

2015 Platica de divulgacion en el museo de la Luz, impartida el 8 de noviembre, dentro del programa Domingos en laCiencia de la AMC

2013 Platica de divulgacion en el Dıa de Puertas Abiertas del IFUNAM, 15 de noviembre.

2012 Platica de divulgacion en el CCH Sur, impartida el 6 de septiembre. Dentro del programa de Fısica.

2009 Platica de divulgacion en la sede de Universum, impartida el 8 de noviembre, dentro del programa Domingos en laCiencia de la AMC

2008 Platica de divulgacion en el programa de radio Imagen en la Ciencia FM 90.5. Entrevista 2 de diciembre. Nanotecno-logıa.

2007 Platica de divulgacion en el programa de radio del Instituto Mexicano de la Radio (IMER), en el 660 de AM, Constructoresdel Conocimiento, el 3 de diciembre

2007 Platica de divulgacion en el programa de radio en RADIO UNAM, en el 860 de AM, PERFILES, el 10 de diciembre

2005 Platica de divulgacion en la Escuela Nacional Preparatoria platel No. 1, impartida el 16 de febrero dentro del marcode actividades del Ano Internacional de la Fısica

2005 Platica de divulgacion en el Museo de la Luz, impartida el 9 de junio dentro del marco de actividades del AnoInternacional de la Fısica

2005 3 Platica de divulgacion en La Feria de la Fısica, impartidas el 25 y 27 de noviembre dentro del marco de actividadesdel Ano Internacional de la Fısica

2003 Platica de divulgacion en la sede del Centro de Extension Tacuba, impartida el 31 de mayo, dentro del programaDomingos en la Ciencia de la AMC

2003 Platica de divulgacion en el museo UNIVERSUM impartida el 24 de septiembre, dentro de la semana de la nanocienciay la nanotecnologıa.

2003 Platica de divulgacion en el Museo Tecnologico de la CFE, impartida el 12 de octubre, dentro del programa Domingosen la Ciencia de la AMC

2002 Platica de divulgacion en el Planetario de Morelia, Michoacan, impartida el 23 de noviembre, dentro del programaDomingos en la Ciencia de la AMC

2001 Platica de divulgacion en el Colegio Latino de Mexico (nivel preparatoria) impartida el 24 de enero, dentro del ciclo100 anos de la Mecanica Cuantica


2001 Platica de divulgacion en el museo UNIVERSUM impartida el 4 de marzo, dentro del programa Domingos en la Ciencia.

2001 Platica de divulgacion en el Colegio de Bachilleres # 20 (nivel preparatoria) impartida el 8 de mayo, dentro del cicloJovenes a la Investigacion.

2001 Platica de divulgacion en el programa de radio UNAM, DESLINDE, el 9 de octubre

Presentaciones regulares en congresos (137)

— Trabajos en congresos internacionales . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 117— Trabajos en congresos nacionales . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 20

La lista de estas presentaciones se encuentra al �nal del CV

PROYECTOS FINANCIADOS

Responsable (16)

2016 Transferencia de calor radiativa en sistemas plasmonicos, propuesta aprobada CONACYT No. 2015-02-1290.

2016/18 Assessment of Exchange-Correlation Functionals of the Description and Prediction of Electronic and Optical, AFOSR.

2015/17 Campo electromagnetico aumentado por medio de nanopartıculas metalicas, DGAPA-UNAM proyecto IN107615

2014/15 Investigation of Plasmon-Enhanced Visible Light Photoactivity of Titanium Dioxide Photoelectrodes for Solar WaterOxidation UC MEXUS-CONACYT Collaborative Research Grants

2013/14 Bases para la deteccion de moleculas de interes ambiental y biologico mediante espectroscopias opticas ultrasensiblespor medio de la excitacion de plasmones de super�cie CONACyT SRE 2012-3 del fondo Secretaria de RelacionesExteriores proyecto 191767

2013/15 Plasmonica de nanopartıculas metalicas para el aumento en la sensibilidad de espectroscopias opticas, CONACyTCiencia Basica proyecto 179454

2012/14 Actividad optica y plasmonica de nanopartıculas, DGAPA-UNAM proyecto IN104212

2011 Optics of Surfaces and Interfaces Congress, AFOSR,

2009/10 Surface Plasmon Resonances in 1D- and 2D- Arrays of Metal Nanoparticles for the Control of Enhanced Spectroscopies,AFOSR,

2008/10 Propiedades opticas de nanoestructuras quirales, DGAPA-UNAM proyecto IN106408 $ 527,890.00 pesos

2007/10 Propiedades opticas de nanopartıculas, CONACyT Ciencia Basica proyecto 48521

2004/07 Efecto casimir en materiales reales, DGAPA-UNAM proyecto IN101605

2002/05 Propiedades opticas de materiales usando metodos de primeros principios CONACyT Ciencia Basica proyecto 44306

1999/00 Estudio teorico de las propiedades opticas de nitruros, Fundacion “Ricardo J. Zevada”.

1997/99 Propiedades electronicas y opticas de super�cies y sistemas desordenados, CONACyT Ciencia Basica proyecto 3035PE

1995/96 First-Principles Calculations of Optical Properties of Semiconductor Surfaces, Ohio Supercomputer Center, ResearchGrant 700 Resource Units in Cray Y/MP Computer.


Corresponsable (4)

2001/04 Propiedades opticas y elasticas de la materia granular: esparcimiento de luz y sonido, DGAPA-UNAM proyecto

1999/01 Efectos de campo local en sistemas con geometrıas restringidas, CONACyT Ciencia Basica

1997/00 Propiedades fısicas de sistemas inhomogeneos, DGAPA-UNAM

1996/97 Propiedades opticas y elasticas de medios inhomogeneos, CONACyT Ciencia Basica

Participante (12)

2016 Propiedades opticas y mecanicas del grafeno, IFUNAM.

2016 Transferencia de calor radiativa en nanoestructuras, IFUNAM

2016 Desarrollo y fortalecimiento del Lab. de nanofotonica avanzada, CONACYT 268414 Proyecto de infraestructura

2013 Detector de molecula individual con resolucion atomica acoplado a un sistema de espectroscopia Raman aumentadopor punta, CONACYT 204855 Proyecto de infraestructura.

2012 Estudio de quiralidad y plasmonica a nivel atomico y molecular usando el STM y aumento de espectroscopıa Ramanpor punta (TERS) a 5K en UHV, CONACyT.

2004/07 Efecto casimir en materiales reales, Financiado por CONACyT. (R. Esquivel-Sirvent).

2004 Propiedades opticas de nanoestructuras, Proyecto VIEP-BUAP II 193/EXC/G. (L. Meza-Montes)

2002/05 Propiedades electronicas de sistemas semiconductores de baja dimensionalidad: Nanoalambres y espintronica enpuntos cuanticos, CONACYT 36764-E. (L. Meza-Montes)

1999/04 Laboratorio de simulacion de sistemas de muchos cuerpos: de atomos a materia condensada, Financiado por CONACyT.Enero 1999 a diciembre 2004.

2001/02 Alambres atomicos adsorbidos sobres sustratos semiconductores, Programa de colaboracion UNAM-BUAP. (L. Meza-Montes)

2001/02 Propiedades electronicas de sistemas semiconductores de baja dimensionalidad: Nanoalambres y espintronica enpuntos cuanticos, VIEP-BUAP II16I01. (L. Meza-Montes)

1999/01 Efectos de acoplamiento y no linealidad en ondas sısmicas, CONACyT.

FORMACION DE RECURSOS HUMANOS

Cursos Docentes (54)

Cursos regulares de licenciatura . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 27Cursos regulares en el Posgrado en Ciencias Fısicas, UNAM . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14Cursos regulares impartidos como ayudante en Facultad de Ciencias, UNAM . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7Cursos especiales y de verano . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6TOTAL DE CURSOS IMPARTIDOS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 54


NIVEL CURSO IMPARTIDO No. VECES SEMESTRE(S)Posgrado Taller de Mecanica Estadıstica 1 (98)Posgrado Estado Solido 4 (2000, 06,08, 12-2)Posgrado Electrodinamica Clasica 3 (99, 2001, 04)Posgrado Fısica Computacional 1 (2002)Posgrado Propedeutico Mec. Cuantica 1 (1999)Posgrado Fısica de Nanomateriales 1 (2007-2)Posgrado Mecanica Cuantica I 3 (2013-1, 2013-2, 2014-2)Licenciatura Fısica Teorica II: Termodinamica 1 (92)Licenciatura Introduccion al Estado Solido 3 (97-I, 97-II, 99)Licenciatura Laboratorio de Fısica Clasica II COF 1 (99)Licenciatura Temas Selectos de Estado Solido 1 (99)Licenciatura Fısica Moderna III 1 (2000)Licenciatura Fısica Teorica III: Electromagnetismo 1 (2001)Licenciatura Fısica Computacional 8 (2002, 2003, 2004, 2005)Licenciatura Fısica Computacional 1 (10-1)Licenciatura Fısica Clasica I: mecanica 1 (2002)Licenciatura Laboratorio II de Ingenierıa Fısica 1 (09-2)Licenciatura Propedeutico Fısica Computacional 1 (1999)Licenciatura Fısica atomica y materia condensada 1 (2010-1)Licenciatura Introduccion a la Fısica Cuantica 1 (2014-1)Licenciatura Electromagnetismo I 3 (14-2, 15-2, 17-2)Licenciatura Fısica Contemporanea 1 2016-1Licenciatura Estado Solido 1 (2016-2)Especial Propiedades opticas de super�cies cristalinas 1 (96)Especial Fısica Computacional 1 (2001)Especial Fısica de Nanomateriales 1 (2002)Especial Fısica del Edo. Solido en Fıs. Contempo. 1 (08-1)Especial Nanociencia en Fıs. Contempo. 2 (09-1 y 10-1)Ayudante Fısica Clasica I: Mecanica 1 (89)Ayudante Fısica General 4 (90-I, 90-II, 91-I, 91-II)Ayudante Fısica Teorica II: Termodinamica 1 (90)Ayudante Mecanica Estadıstica 1 (93)TOTAL 54

Tesis y posdoctorantes

GRADO TERMINADAS EN PROCESOLicenciatura 4 –Maestrıa 7 –Doctorado 5 1Posdoctorado 6 2Otros 1 –TOTAL 23 3


– Finalizados (23)

2017 Martın Ernesto Figueroa DelgadilloMaestrıa 08/2011 – 08/2017Instituto de Fısica, Posgrado en Ciencias Fısicas UNAMFecha de examen: 18 de agosto 2017.

2017 David Enrique Medina QuirozOtro 07/06/2017 – 04/08/2017XXVII Verano de la Investigacion Cientı�ca, AMC

2017 Humberto Batiz GuerreroLicenciatura 04/2016 – 06/2017Facultad de Ciencias UNAMPublicaciones: 1 en ACS PhotonicsFecha de examen: 22 de junio 2017

2017 Francisco J. Hidalgo MorenoPodoctorado 08/2016 – 04/2017Instituto de Fısica UNAMPublicaciones: 1 en EuroPhysics Letters, 2 en preparacion.

2015 Giuseppe PirruccioPodoctorado 03/2015 – 10/2015Tema de investigacion: Plasmonic metal nanoparticles and its application to Tip-enhanced Raman spectroscopy: theoryand experimentsPublicaciones (1): en ACS Photonics (2018)Situacion actual: Investigador Asociado C, IFUNAM

2015 David Becerril RodrıguezMaestrıa Posgrado en Ciencias Fısicas UNAMTıtulo de reporte: Adsorbcion de SCH3 sobre nanopartıculas de plata: dependencia del tamano. Opcion por artıculode investigacion.Fecha de examen: 23 de enero 2015.Publicaciones(1): J. Phys. Chem C (2015)Situacion actual: Estudiante de doctorado PCF-UNAM en el grupo de Cecilia Noguez

2014 Francisco J. Hidalgo MorenoDoctorado Posgrado en Ciencias Fısicas UNAM.Tıtulo de tesis: Morfologıa y actividad optica en nanopartıculas metalicas con ligandos. Un estudio de primerosprincipios.Fecha de examen: 14 de marzo 2014Publicaciones (5): J. Phys. Chem. Letters (2011), ACS Nano (2013), Nanoscale (2014), Chirality (2014), Nanoscale (2016)Situacion actual: Profesor Invitado Titular C, UAM-Azcapotzalco, SNI nivel I

2013 Jirı BeranekEstancia de Maestrıa del Physical Engineering and Nanotechnology ProgramBrno University of Technology, Czech RepublicTıtulo de tesis: Surface plasmon resonances on colloidal nanoparticlesEstancia: 1 de marzo al 31 septiembre 2012.


Publicaciones(1): J. Phys. Chem. C. (2014)Se graduo con el trabajo realizado en Mexico bajo mi direccion.

2012 Alı Michel Angulo MartınezMaestrıa Posgrado en Ciencias Fısicas UNAMTıtulo de tesis: Intensi�cacion del campo electromagnetico en nanoestructuras metalicasFecha de examen: 26 septiembre de 2012.Publicaciones (1): J. Phys. Chem. Lett. (2011)Situacion actual: estudiante de doctorado en el PCF-UNAM.

2011 Ariadna Sanchez CastilloPosdoctorado 09/2008 – 05/2011Tema de investigacion: Actividad optica de nanopartıculas quiralesPublicaciones (4): Eur. Phys. J. D (2009), J. Am. Chem. Soc. (Communication) (2010), J. Phys. Chem. C (2010), J. Phys.Chem. Lett. (2011).Situacion actual: Prof. Inv. Titular C, Univ. Autonoma de Hidalgo Apan, SNI nivel I

2009 Francisco J. Hidalgo MorenoMaestrıa Posgrado en Ciencias Fısicas UNAM.Tıtulo de tesis: Actividad optica de nanopartıculas de oro puras y pasivadasFecha de examen: 19 marzo de 2009.Publicaciones (4): J. Phys. Chem C (2008), Phys. Rev. B (2009), Eur. Phys. J. D (2009), y Physica Status Solidi (b) (2010)Situacion actual: Profesor Invitado Titular C, UAM-Azcapotzalco, SNI nivel I

2008 Ariadna Sanchez CastilloDoctorado en Ciencias de Materiales, Instituto de Fısica, Univ. Autonoma de PueblaTıtulo de tesis: Propiedades Opticas de Nanotubos Quirales.Fecha de examen: 16 de junio de 2008.Publicaciones(5): Phys. Rev. B (2006 y 2009), J. Phys. Chem. C(2010) y 2 memorias.Situacion actual: Prof. Inv. Titular C, Univ. Autonoma de Hidalgo Apan, SNI nivel I

2007 Ana Lilia Gonzalez RonquilloDoctorado Posgrado en Ciencias Fısicas UNAM. 2007Tıtulo de tesis: Propiedades opticas de nanopartıculas metalicasFecha de examen: 17 octubre de 2007.Publicaciones (5): Phys. Chem. B (2005), Nanotech (2006), J. Computational & Theor. Nanoscience (2007), PhysicaStatus Solidi (c) (2007), J. Phys. Chem. C (2008)Premio Weizmann en Ciencias Exactas 2008, Academia Mexicana de Ciencias.Premio a la mejor tesis doctoral en el area de Ciencia e Ingenierıa de Materiales del certamen IIM-UNAM 2008Situacion actual: Porfesora-Investigadora Titular B, IF-BUAP, SNI nivel I

2007 Alı Michel Angulo MartınezLicenciatura en Fısica Facultad de Ciencias, UNAMTıtulo de tesis: Estructura atomica y morfologıa de nanopartıculas de plataFecha de examen: 17 de agosto de 2007.Publicaciones(1): J. Phys. Chem. A (2008)Situacion actual: estudiante de doctorado en el PCF-UNAM.

2005 Xochitl Lopez LozanoDoctorado en Ciencias Fısica, Instituto de Fısica, Univ. Autonoma de PueblaTıtulo de tesis: Propiedades electronicas y opticas de la super�cie InAs(110) y de los alambres atomicos de In/Si(111).


Fecha de examen: 22 de julio 2005.Publicaciones (6): Phys. Status Soilidi (c) (2003), Rev. Mex. de Fıs. (2005), Phys. Rev. B (2005 y 2006), 2 memoriasPremio a la mejor tesis doctoral en el area de Ciencia e Ingenierıa de Materiales del certamen IIM-UNAM 2006Situacion actual: Associate Professor en la Universidad de Texas en San Antonio, EUA, Nivel I del SNILa Dra. Lilia Meza Montes del IF de la BUAP fungio como asesora interna.

2005 Guillermo P. Ortiz FernandezPosdoctorado 06/2004 – 06/2005Asesorıa durante su estancia de posdoctoral con Ruben G. BarreraTema de investigacion: Propiedades opticas de nanopartıculas metalicas en funcion de su morfologıaPublicaciones (1): J. Phys. Chem. B (2005)Situacion actual: Professor en la Univ Nacl Nordeste, Dept Fis, Fac Ciencias Exactas Nat & Agrimensura, Corrientes,Argentina (en 2005 fue SNI nivel I)

2005 Carlos Enrique Roman VelazquezPosdoctorado 01/2003 – 10/2005Tema de investigacion: Fuerzas de Casimir y Dicroısmo CircularPublicaciones (9): J. Phys. Chem. B (Letter) (2003), Phys. Rev. A (2004), Phys. Rev. B (2004, 2006 y 2006), EuroPhysicsLetters (2004), J. Phys. A (2006) y 2 memorias (2003 y 2004)Situacion actual: Profesor de Asignatura en FC-UNAM (entre 2000 y 2006 fue SNI nivel I).

2004 Geonel Rodrıguez GattornoPodoctorado 06/2004 – 12/2004Tema de investigacion: Sıntesis, microscopıa y propiedades opticas de nanopartıculas de plataPublicaciones(1): J. Phys. Chem. B (2005)Situacion actual: Investigador 3A del CINVESTAV, Merida, SNI nivel II

2004 Ana Lilia Gonzalez RonquilloMaestrıa Posgrado en Ciencias Fısicas UNAM.Tıtulo tesina: Propiedades opticas de nanopartıculas metalicas.Fecha de examen: Examen General de Conocimientos: enero 2004.Fecha de examen: de candidatura, diciembre 2004.

2003 Ivan Orencio Sosa PerezMaestrıa Posgrado en Ciencias Fısicas UNAMTıtulo de tesis: Propiedades opticas de nanopartıculas de formas arbitrarias.Fecha de examen: 28 de enero de 2003.Publicaciones (2): J. of Physical Chemistry B (2003), 1 memoriaSituacion actual: Profesor de TC de la Universidad de la Ciudad de MexicoCodireccion con Ruben G. Barrera, IFUNAM

2002 Alejandro Valderrama ZaldivarLicenciatura en l Fısica Facultad de Ciencias, UNAMTıtulo de tesis: Pruebas de polarizacion en nanotubos simulados con y sin quiralidadFecha de examen: 4 de octubre de 2002

2000 Martın Solıs PerezLicenciatura en Fısica Facultad de Ciencias, UNAMTıtulo de tesis: Calculos de estructura electronica de la super�cie de germanio reconstruida en su cara (111)Fecha de examen: 13 de julio de 2000Publicaciones (1): Revista Cientı�ca TIP (2000)


1999 Carlos Enrique Roman VelazquezDoctorado en Ciencias de Materiales, CISECETıtulo de tesis: Calculo del tensor dielectrico efectivo en medios anisotropicos granulados.Fecha de examen: 21 de septiembre de 1999.Publicaciones (4): phys. status solidi (a) (1999), Physical Review B (2000) y Physica B (2000), 1 memoria.Situacion actual: Profesor de Asignatura en FC-UNAM (en 2000 y 2006 fue SNI nivel I). Codireccion con Ruben G.Barrera IFUNAM

– En proceso (3)

2016 Cercis Morera BoadoPodoctorado 10/2016 – vigenteInstituto de Fısica UNAMPublicaciones: EuroPhysics L:etters, 1 en preparacion

2016 Francisco Sanchez OchoaPodoctorado 08/2016 – vigenteInstituto de Fısica UNAMPublicaciones: 1 en preparacion

2015 David Becerril RodrıguezDoctorado 04/2016 – vigenteInstituto de Fısica, Posgrado en Ciencias Fısicas UNAM(50 % de avance)Examen de candidatura: 28 de agosto 2017Publicaciones: ACS Photonics, 1 en preparacionFecha tentativa de examen: enero 2019

Participacion en examenes de grado como sinodal (38)

1. Carlos Ignacio Mendoza RuizExamen de grado: Doctor en Ciencias, Facultad deCiencias, UNAM, 1999.

2. Susana OrozcoExamen de grado: Doctora en Ciencias, Facultad deCiencias, UNAM, 1999.

3. Catalina Lopez BastidasExamen de grado: Doctora en Ciencias, Facultad deCiencias, UAE Morelos, 2000.

4. Jose Antonio Sanchez MondragonExamen de grado: Maestro en Ciencias, Facultad deCiencias, UNAM, 2001.

5. Jorge Alejandro Reyes EsquedaExamen de grado: Doctor en Ciencias, Facultad deCiencias, UNAM, 2001.

6. Jorge Enrique Mejıa SanchezExamen de grado: Doctor en Ciencias, Centro de In-vestigaciones en Optica (CIO), 2001.

7. Marco Antonio IglesiasExamen de grado: Licenciatura en Fısica, Facultad deCiencias, UNAM, febrero 2004.

8. Samuel E. Baltazar RojasExamen de grado: Maestrıa en Ciencias Aplicadas,IPICYT, 9 de julio de 2004.

9. Luis Enrique Dıaz SanchezExamen de grado: Maestrıa en Ciencias Fısica, Posgra-do en Ciencias Fısicas, UNAM, 8 de febrero del 2005.

10. Jose Luis Cardoso CortesExamen de grado: Doctor en Ciencias Fısica, Posgradoen Ciencias Fısicas, UNAM, 14 de febrero del 2005.

11. Amparo Elizabeth Cano BasaveExamen de grado: Licenciatura en Fısica, Facultad deCiencias, UNAM, noviembre 2005.

12. Marıa Andrea Gutierrez CamposCandidatura: Doctor en Ciencias Fısica Posgrado enCiencias Fısicas, UNAM, 6 de julio del 2006.

13. Amador BautistaExamen de grado: Licenciatura en Fısica, Facultad deCiencias, UNAM, agosto 2006.

14. Jorge Amın Seman H.Examen de grado: Licenciatura en Fısica, Facultad deCiencias, UNAM, septiembre 2006.


15. Laura Elena Rosales ZarateCandidatura: Doctor en Ciencias Fısica, Posgrado enCiencias Fısicas, UNAM, 14 de noviembre del 2006.

16. Giacomo Bonfanti EscaleraSeminario de titulacion: Ingenierıa Fısica, UniversidadIberoamericana, 7 de diciembre del 2006.

17. Edahı Gutıerrez ReyesCandidatura: Doctor en Ciencias Fısica, Posgrado enCiencias Fısicas, UNAM, 17 de mayo del 2007.

18. Hector Gabriel Silva PereyraCandidatura: Doctor en Ciencias Fısica, Posgrado enCiencias Fısicas, UNAM, 26 de junio del 2007.

19. Alfredo Augusto Guevara GarcıaExamen de grado: Doctor en Ciencias Quımicas, Pos-grado en Ciencias Quımicas, UNAM, 10 de agosto del2007.

20. Lirio Euridice Aparicio ServinCandidatura: Doctor en Ciencias Fısica, Posgrado enCiencias Fısicas, UNAM, 31 de julio del 2007.

21. Ariadna Blanca RomeroCandidatura: Doctor en Ciencias Fısica, Posgrado enCiencias Fısicas, UNAM, 2 de agosto del 2007.

22. Flavio Fernando Contreras TorresExamen de grado: Doctor en Ciencias Quımicas, Pos-grado en Ciencias Quımicas, UNAM, 10 de septiembredel 2007.

23. Daniel J RossExamen de grado: Doctor en Fısica (Ph. D.) Departa-mento de Fısica, Universidad de Windsor, Ontario Ca-nada, 13 de Marzo de 2009.

24. Orlando Hernandez CristobalCandidatura: Doctor en Ciencia e Ingenierıa de mate-riales, Posgrado en Ciencia e Ingenierıa de materiales,UNAM, 14 de mayo del 2009.

25. Roberto Mejıa OlveraExamen de grado: Maestro en Ciencia e Ingenierıa demateriales, Posgrado en Ciencia e Ingenierıa de ma-teriales, UNAM, en revision 2009.

26. Adair Chavez RovegliaExamen de grado: Licenciatura en Fısica, Facultad deCiencias, UNAM, noviembre 2010.

27. Jose Concepcion Torres GuzmanExamen de grado: Doctor en Ciencias (Fısica), Univ.Autonoma del Estado de Morelos, noviembre, 2010

28. Daniel Cruz DelgadoExamen de grado: Maestro en Ciencia (Fısica), Posgra-do en Ciencia Fısicas, UNAM, 10 de septiembre 2012.

29. Gustavo Roberto Perez LemusExamen de grado: Licenciatura en Fısica, Facultad deCiencias, UNAM, 12 febrero 2013.

30. Sergio Alberto Sabinas HernandezCandidatura: Doctor en Ciencias Fısicas, Posgrado enCiencias e Ingenierıa de Materiales, UNAM, Instituto deFısica, UNAM, 20 de noviembre 2014.

31. Jesus Castrejon FigueroaExamen de grado: Licenciatura en Fısica, Facultad deCiencias, UNAM, enero 2015.

32. Jose Angel Castellanos ReyesExamen de grado: Licenciatura en Fısica, Facultad deCiencias, UNAM, agosto 2015.

33. Jonathan Guerrero SanchezExamen de grado: Doctor, Posgrado en Ciencia eIngenierıa de Materiales, Instituto de Fısica, BUAP,noviembre 2015

34. Ulises Torres HerreraCandidatura: Doctor , Posgrado en Ciencias Quımicas,UNAM, Fc. Quımicas, UNAM, 26 de mayo 2016.

35. Selene Rubı Islas SanchezExamen de grado: Doctor, Posgrado en CienciasQuımicas, UNAM, Fc. Quımicas, UNAM, 2016.

36. Carlos Alberto Ramrez MedinaProtocolo: Doctorado, Posgrado en Ciencias Fısicas,UNAM, Instituto de Fısica, UNAM, 20 de noviembre2016.

37. Omar Wilfrido Vazquez EstradaExamen de grado: Doctorado, Posgrado en Ingenierıa,UNAM, Centro de Ciencias Aplicadas y Desarrollo Tec-nologico, UNAM, 20 de junio 2017.

38. Noralvis Fleitas SalazarExamen de grado: Doctorado, Posgrado en Ciencias(Fısica), Universidad de Sonora, 16 de noviembre 2017.


Participacion en examenes generales y predoctorales (6)

39. Jorge Fernando Camacho PerezExamen General de ConocimientosJunio 1998. Facultad de Ciencias, UNAM.

40. Jorge Fernando Camacho PerezExamen General de ConocimientosEnero 1999. Facultad de Ciencias, UNAM.

41. Comite del examen de diagnostico para ingresar alPosgrado en Ciencias Fısicas de la UNAM (1999).Se examinaron 14 alumnos.

42. Predoctoral de Electrodinamica Clasicapresentaron examen 8 estudiantesEnero de 2003.

43. Predoctoral de Electrodinamica Clasicapresentaron examen 10 estudiantesJulio de 2004.

44. Predoctoral de Electrodinamica Clasicapresentaron examen 15 estudiantesEnero de 2009.

PRODUCCION CIENTIFICA (96)

Tabla de publicaciones

REVISTA EN # FACTOR DE 1er AUTOR CON ESTUDIANTES PORJOURNAL OF CITATION REPORT (JCR) ARTICULOS IMPACTO∗ O UNICO Y/O POSDOCS INVITACIONNature Nanotechnology 1 35.267Chemical Society Reviews 1 33.383 1 1ACS Nano 1 13.334 1Journal American Chemical Society 1 13.038 1Journal of Physical Chemistry Letters 2 8.539 1 2 1Nanoscale 2 7.760 2Physical Review Letters 1 7.645 1ACS Photonics 1 6.756 1Journal of Materials Chemistry C 1 5.066Journal of Physical Chemistry C 8 4.509 1 5 1Physical Review B 14 3.718 5 7Journal of Physical Chemistry B 3 3.187 3Applied Surface Science 1 3.150Optics Express 1 3.148Journal of Chemical Physics 2 2.894Journal of Physical Chemistry A 2 2.883 1 1Physical Review A 1 2.765 1EuroPhysics Letters (EPL) 2 2.229 1 2 1Optical Materials 1 2.183 1 1Plasmonics 1 2.146 1Superlattices and Microstructures 1 2.117 1Journal of Applied Physics 1 2.101Chirality 1 2.025 1 1Journal of Physics A 1 1.933Surface Science 2 1.931 2Physica A 1 1.785 1


REVISTA EN # FACTOR DE 1er AUTOR CON ESTUDIANTES PORJOURNAL OF CITATION REPORT (JCR) ARTICULOS IMPACTO∗ O UNICO Y/O POSDOCS INVITACIONJ. Comp. & Theo. Nanoscience 1 1.666 1 1Physica Status Solidi (a) 2 1.648 1 1Physica Status Solidi (b) 3 1.522 1 1 1Physica B 1 1.352 1European Physical Journal D 2 1.208 1Revista Mexicana de Fısica 1 0.371 1SUBTOTAL 64 †4.714 18 33 9

NO JCRPhysica Status Solidi (c) 2 2Il Vuoto 1 1TIP Revista Esp. C. Quımicas-Biologicas 2 1 1 1SUBTOTAL 5 2 3 1

MEMORIAS Y CAPITULOSMRS Symposium Proceedings 7 2 4Memorias en extenso con arbitraje 5 2 2Memorias en espanol en extenso con arbitraje 6 4Capıtulos en Libros 6 6 6Divulgacion 3 2 2SUBTOTAL 27 11 10 8

TOTAL 96 †4.721 31 46 18

∗Tomados del Science Citation Index (SCI) Journal Citation Reports 2015. †Factor de impacto promedio.

Portadas

(1) (2) (3)

(1) Artıculo [67] Journal of Physical Chemistry C (Feature Article) 111 (10) 3806 – 3819 (2007)


(4) (5)

(2) Artıculo [32] Physica Status Soildi (c) 4 (11), 4118 – 4126 (2007)

(3) Artıculo [82] Journal of Physical Chemistry Letters 2 1038 – 1044 (2011)

(4) Capıtulo [27] libro Complex-Shaped Metal Nanoparticles: Bottom-Up Syntheses and Applications, (2012)

(5) Artıculo [90] Physica Status Solidi b 252 56–71 (2015)

Lista de publicaciones

Los trabajos con estudiantes y posdocs bajo mi direccion durante su formacion se muestran sus nombres con letras gruesas

– Revistas indizadas JCR con estricto arbitraje

96. E�cient coupling to plasmonic multipole resonances by using a multipolar incident �eld,Becerril, David; Batiz, Humberto; Pirruccio, Giuseppe; & Cecilia NoguezACS Photonics xxx (xx), pp. xxx (2018);

95. On the stability of noble-metal nanoclusters protected with thiolate ligands,Cercis Morera-Boado, Francisco Hidalgo & Cecilia NoguezEPL (Europhysics Letters) 119 (5), pp. 56002 (2017); DOI: 10.1209/0295-5075/119/56002

94. How to Control Optical Activity in Organic-Silver Hybrid Nanoparticles,Francisco Hidalgo & Cecilia NoguezNanoscale 8 (30), pp. 14457-14466 (2016); DOI: 10.1039/C6NR02372J

93. Chiral Atomically Thin Films,Cheol-Joo Kim, A. Sanchez-Castillo, Zack Ziegler, Yui Ogawa, Cecilia Noguez, & Jiwoong ParkNature Nanotechnology 11, 520–524 (2016); doi:10.1038/nnano.2016.3

92. Plasmonic Response of Nested Nanoparticles with Arbitrary Geometry,Rafael Dıaz, Raul Esquivel-Sirvent & Cecilia NoguezJournal of Physical Chemistry C 120 (4), pp 2349–2354 (2016); DOI: 10.1021/acs.jpcc.5b10109

91. Adsorption of a Methylthio Radical on Silver Nanoparticles: Size Dependence,David Becerril & Cecilia NoguezJournal of Physical Chemistry C 119 (20), pp 10824–10835 (2015); DOI: 10.1021/jp509727q

http://dx.doi.org/10.1021/acsphotonics.7b01426

http://iopscience.iop.org/article/10.1209/0295-5075/119/56002

http://pubs.rsc.org/en/content/articlepdf/2014/NR/C6NR02372J?page=search

http://www.nature.com/nnano/journal/vaop/ncurrent/full/nnano.2016.3.html

http://pubs.acs.org/doi/pdf/10.1021/acs.jpcc.5b10109

http://pubs.acs.org/doi/abs/10.1021/jp509727q


90. Plasmonics of multifaceted metallic nanoparticles, �eld enhancement and TERS,Cecilia Noguez, C.J. Villagomez & A.L. GonzalezPhysica Status Solidi B 252, 56–71 (2015)– Al artıculo le dieron la portada del numero de la revista –

89. Ab initio electronic circular dichroism of fullerenes, single-walled carbon nanotubes and ligand-protected metal nano-particles,Cecilia Noguez & Francisco HidalgoChirality 26 (9), 553 –562 (2014)

88. Size, Shape, Stability and Color of Plasmonic Silver Nanoparticles,Ana Gonzalez, Cecilia Noguez, Jiri Beranek, Amanda BarnardJournal of Physical Chemistry C 118 (17), pp 9128–9136 (2014).

87. Metallic in�uence on the atomic structure and optical activity of ligand-protected nanoparticles: a comparison betweenAg and Au,Francisco Hidalgo, Cecilia Noguez & M. Olvera de la CruzNanoscale 6 (6), 3325 - 3334 (2014) DOI: 10.1039/C3NR06202C

86. Mapping the Structural and Optical Properties of Anisotropic Gold Nanoparticles,Ana L. Gonzalez, Cecilia Noguez & Amanda S. BarnardJournal of Materials Chemistry C 1(18), 3150 - 3157 (2013)

85. Optical Activity of Achiral Ligand SCH3 Adsorbed on Achiral Ag55 Clusters: Relationship between Adsorption Site andCircular Dichroism,Francisco Hidalgo & Cecilia NoguezACS Nano 7, 513 – 521 (2013) DOI: 10.1021/nn3046083

84. Map of the Structural and Optical Properties of Gold Nanoparticles at Thermal Equilibrium,Ana L. Gonzalez, Cecilia Noguez & Amanda S. BarnardJournal of Physical Chemistry C 116, 14170 –14175 (2012)

83. Electromagnetic Field Enhancement at the Edge of Metal Nanostructures,Ali Angulo, Cecilia Noguez & George C. SchatzJournal of Physical Chemistry Letters 2, 1978–1983 (2011)

82. The Role of Morphology in the Enhanced Optical Activity of Ligand-Protected Metal Nanoparticles,Cecilia Noguez, Ariadna Sanchez-Castillo & Francisco HidalgoArtıculo por invitacion en Journal of Physical Chemistry Letters 2 1038 – 1044 (2011).– Al artıculo le dieron la portada del numero de la revista –

81. Designing the plasmonic response of shell nanoparticles: spectral representation,Carlos E. Roman-Velazquez & Cecilia NoguezJournal of Chemical Physics 114(4), 044116-1 – 044116-14 (2011).– Seleccionado por el Virtual Journal of Nanoscale Science & Technology, 23, February 7, 2011 published by theAmerican Institute of Physics and the American Physical Society –

80. Understanding optical activity in single-wall carbon nanotubes from �rst-principles studiesAriadna Sanchez-Castillo & Cecilia NoguezJournal of Physical Chemistry C114(21), 9640 – 9644 (2010)

http://onlinelibrary.wiley.com/doi/10.1002/pssb.201350416/abstract


http://onlinelibrary.wiley.com/doi/10.1002/chir.22348/abstract

http://onlinelibrary.wiley.com/doi/10.1002/chir.22348/abstract

http://pubs.acs.org/doi/abs/10.1021/jp5018168

http://pubs.rsc.org/en/content/articlelanding/2014/nr/c3nr06202c#!divAbstract

http://pubs.rsc.org/en/content/articlelanding/2014/nr/c3nr06202c#!divAbstract

http://pubs.rsc.org/en/content/articlelanding/2013/tc/c3tc30313f

http://pubs.acs.org/doi/abs/10.1021/nn3046083

http://pubs.acs.org/doi/abs/10.1021/nn3046083


http://pubs.acs.org/doi/abs/10.1021/jz200825g

http://pubs.acs.org/articlesonrequest/AOR-GwdRkahXQTDJZIr7rtjp

http://pubs.acs.org/action/showLargeCover?issue=357933480

http://jcp.aip.org/resource/1/jcpsa6/v134/i4/p044116_s1



79. On the origin of the optical activity displayed by chiral-ligand-protected metallic nanoclusters,Ariadna Sanchez-Castillo, Cecilia Noguez & Ignacio L. GarzonJournal of the American Chemical Society (Communication) 132, 1504–1505 (2010).

78. Optically active nanoparticles: fullerenes, carbon nanotubes, and metal nanoparticlesFrancisco Hidalgo & Cecilia NoguezPhysica Status Solidi B. 247, 1889–1897 (2010).

77. E�cient First-Principles Method for Circular Dichroism of Nanostructures,Francisco Hidalgo, Ariadna Sanchez-Castillo & Cecilia Noguez,Physical Review B 79, 075438 (2009).– Seleccionado por el Virtual Journal of Nanoscale Science & Technology, 19, March 9, 2009 published by the AmericanInstitute of Physics and the American Physical Society –

76. Theoretical Study of Surface Plasmon Resonances in Hollow Gold-Silver Double-shell Nanostructures,Carlos E. Roman-Velzquez, Cecilia Noguez & Jin Z. ZhangArtıculo por invitacion: Journal of Physical Chemistry A 113 4068 – 4074 (2009).

75. First-principles calculations of circular dichroism of bare and ligand-protected gold nanoparticles,Francisco Hidalgo, Ariadna Sanchez-Castillo, Ignacio L. Garzon & Cecilia Noguez,Eur. Phys. J. D 52, 179 – 182 (2009).

74. Optically active nanoparticles,Cecilia Noguez & Ignacio L. Garzon.Artıculo por invitacion: Chemical Society Reviews 38, 757 – 771 (2009).

73. Intrinsic Chirality in Bare Gold Nanoclusters: The Au−34 case,Itzel E. Santizo, Francisco Hidalgo, Luis A. Perez, Cecilia Noguez, & Ignacio L. Garzon,Journal of Physical Chemistry C 112, 17533 – 17539 (2008)

72. Plasmonic Optical Properties and Applications of Metal Nanostructures,Jin Z. Zhang & Cecilia NoguezArtıculo por invitacion: Plasmonics 4, 127 – 150 (2008).

71. Atomic structure of small and intermediate size silver nanoclusters,Ali M. Angulo & Cecilia NoguezJournal of Physical Chemistry A 112, 5834 – 5838 (2008).

70. Optical properties of elongated noble metal nanoparticles,Ana L. Gonzalez, J. A. Reyes-Esqueda, & Cecilia NoguezJournal of Physical Chemistry C 112, 7356 – 7362 (2008).

69. Large optical birefringence by anisotropic silver nanocomposites,J. A. Reyes-Esqueda, C. Torres-Torres, J. C. Cheang-Wong, A. Crespo-Sosa, L. Rodrıguez-Fernandez, Cecilia Noguez, A.Oliver,Optics Express 16, 710 – 717 (2008).

68. In�uence of Morphology on the Optical Properties of Metal NanoparticlesAna L. Gonzalez & Cecilia NoguezArtıculo por invitacion: J. Computational & Theoretical Nanoscience 4, 231 — 238 (2007).

http://pubs.acs.org/doi/abs/10.1021/ja907365f


http://prb.aps.org/abstract/PRB/v79/i7/e075438

http://pubs.acs.org/doi/abs/10.1021/jp810422r

http://www.springerlink.com/content/d81635652507j225/

http://pubs.rsc.org/en/Content/ArticleLanding/2009/CS/B800404H

http://pubs.acs.org/doi/abs/10.1021/jp806080b

http://www.springerlink.com/content/v5x2751n536841q2/

http://pubs.acs.org/doi/abs/10.1021/jp801545x

http://pubs.acs.org/doi/abs/10.1021/jp800432q

http://www.opticsinfobase.org/oe/abstract.cfm?URI=oe-16-2-710

http://www.ingentaconnect.com/content/asp/jctn/2007/00000004/00000002/art00005?token=004916ffde486b41333c4a2f7a316a762c2b41217a77345f4f6d4e22240d4db911917ebae


67. Surface Plasmons on Metal Nanoparticles: The In�uence of Shape and Physical EnvironmentCecilia NoguezArtıculo por invitacion: Journal of Physical Chemistry C (Feature Article) 111 (10) 3806 – 3819 (2007).– Al artıculo le dieron la portada del numero de la revista –

66. The role of geometry on dispersive forcesCarlos E. Roman-Velazquez & Cecilia NoguezJournal of Physics A: Mathematical and General 39, 6695 – 6701 (2006).

65. Optical circular dichroism of single-wall carbon nanotubesAriadna Sanchez-Castillo, Carlos E. Roman Velazquez, & Cecilia NoguezPhysical Review B 73 045401 (2006).– Seleccionado por el Virtual Journal of Nanoscale Science & Technology, 13, January 16, 2006 published by theAmerican Institute of Physics and the American Physical Society –

64. Reconstruction of quasi-1D In/Si(111) systems: Charge and spin density waves versus bondingXochitl Lopez-Lozano, A. Krivosheeva, A. Stekolnikov, L. Meza-Montes, Cecilia Noguez, J. Furtmueller, and F. BechstedtPhysical Review B 73, 035430 (2006).– Seleccionado por el Virtual Journal of Nanoscale Science & Technology, 13, February 6, 2006 published by theAmerican Institute of Physics and the American Physical Society –

63. Controlled Anisotropic Deformation of Ag Nanoparticles by Si Ion IrradiationA. Oliver, J. A. Reyes-Esqueda, J. C. Cheang-Wong, C. E. Roman-Velazquez, A. Crespo-Sosa, L. Rodrıguez-Fernandez, J.A. Seman, Cecilia NoguezPhysical Review B 74, 245425 (2006).

62. Optical Absorbance of Colloidal Suspensions of Silver Polyhedral Nanoparticles,Ana L. Gonzalez, Cecilia Noguez, Guillermo P. Ortiz, Geonel Rodrıguez-Gattorno;Journal of Physical Chemistry B 109 17512 – 17517 (2005).

61. Electronic structure and Re�ectance Anisotropy spectrum of InAs(110),Xochitl Lopez Lozano, O. Pulci, Cecilia Noguez, K. Fleischer, W. Richter and R. Del Sole.Physical Review B 71, 125337 (2005).

60. Optical Properties of Isolated and Supported Metal Nanoparticles,Cecilia Noguez,Artıculo por invitacion en: Optical Materials 27, 1204 – 1211 (2005).

59. Electronic and optical properties of InAs(110),Xochitl Lopez Lozano, Cecilia Noguez & Lilia Meza-Montes.Revista Mexicana de Fısica 51 168 – 175 (2005).

58. Dispersive force between dissimilar materials: Geometrical e�ects,Cecilia Noguez, Carlos E. Roman-VelazquezPhysical Review B 70, 195412 (2004).

57. High-multipolar e�ects on the Casimir force: the non-retarded limit,Cecilia Noguez, Carlos E. Roman-Velazquez, C. Villarreal & R. Esquivel-Sirvent,Europhysics Letters 67, 191 – 197 (2004).

56. Spectral Representation of the Casimir Force Between a Sphere and a Substrate,Carlos E. Roman-Velazquez, Cecilia Noguez, C. Villarreal & R. Esquivel-Sirvent,Physical Review A 69, 042109 (2004).

http://pubs.acs.org/doi/abs/10.1021/jp066539m

http://pubs.acs.org/action/showLargeCover?issue=40373099

http://iopscience.iop.org/0305-4470/39/21/S70






http://www.sciencedirect.com/science/article/B6TXP-4F9N6Y9-1/2/55443838e81f7fa96977d92b648f7b74

http://rmf.fciencias.unam.mx/pdf/rmf/51/2/51_2_168.pdf


http://iopscience.iop.org/0295-5075/67/2/191

http://pra.aps.org/abstract/PRA/v69/i4/e042109


55. Circular dichroism simulated spectra of chiral gold nanoclusters: A dipole approximationCarlos E. Roman-Velazquez, Cecilia Noguez, and I.L. Garzon,Journal of Physical Chemistry B (Letter) 107, 12035 – 12038 (2003).

54. Optical Properties of Metal Nanoparticles with Arbitrary Shapes,Ivan O. Sosa, Cecilia Noguez, and Ruben G. BarreraJournal of Physical Chemistry B 107, 6269 – 6275 (2003).

53. Origin of optical anisotropies of nonpolar GaN surfaces,Cecilia Noguez,Physical Review B, 62, 2681 – 2685 (2000).

52. Substrate e�ects on the optical properties of a spheroidal nanoparticle,Carlos E. Roman, Cecilia Noguez, Ruben G. BarreraPhysical Review B, 61, 10427 – 10436 (2000).

51. Multipolar plasma resonances in supported alkali-metal nanoparticles,C. Beitia, Y. Borensztein, Ruben G. Barrera, Carlos E. Roman, Cecilia NoguezPhysica B 279, 25 – 28 (2000).

50. Optical properties of a spheroid-substrate systemCarlos E. Roman-Velazquez, Cecilia Noguez, Ruben G. BarreraPhysica Status Solidi (a) 175, 393 (1999).

49. Electron energy-loss spectra of non-polar GaN surfacesCecilia Noguez,Physica Status Solidi (a) 175, 57 (1999).

48. Spectroscopic theoretical study of the atomic reconstruction of GaN (1010)

Cecilia Noguez,Physical Review B 58, 12641 – 12644 (1998).

47. Electron energy loss for anisotropic systems: application to GaN (1010)

R. Esquivel-Sirvent, and Cecilia Noguez,Physical Review B 58, 7367 – 7372 (1998).

46. Multipolar and disorder e�ects on the e�ective dielectric properties of granular composites,Cecilia Noguez, and Ruben G. Barrera,Physical Review B 57, 302 – 313 (1998).

45. First-principles calculations of optical properties: application to silicon clustersCecilia Noguez, and S.E. Ulloa,Physical Review B 56, 9719 – 9725 (1997).

44. Theory of the acoustic signature of topological and morphological defects in SiC/ porous SiC laminated ceramics,R. Esquivel-Sirvent and Cecilia Noguez,Journal of Applied Physics 82, 3618 – 3620 (1997).

43. First-principles studies of hydrogenated Si(111)− 7× 7,D.R. Alfonso, Cecilia Noguez, D.A. Drabold, and S.E. Ulloa,Physical Review B 54, 8028 – 8032 (1996).



http://prb.aps.org/abstract/PRB/v62/i4/p2681_1


http://www.sciencedirect.com/science/article/B6TVH-3YJ9Y37-7/2/98cc074c1333f7c3becb020b7cc38b18

http://www3.interscience.wiley.com/cgi-bin/abstract/65500469/ABSTRACT

http://www3.interscience.wiley.com/cgi-bin/abstract/65500430/ABSTRACT





http://jap.aip.org/resource/1/japiau/v82/i7/p3618_s1



42. Size dependence of the optical properties of silicon clusters,Cecilia Noguez, J. Song, S.E. Ulloa, D.A. Drabold, and S.H. Yang,Superlattices & Microstructures 20, 405 – 410 (1996).

41. Theoretical and experimental optical spectroscopy study of hydrogen adsorption at Si(111)− 7× 7,Cecilia Noguez, C. Beitia, W. Preyss, A.I. Shkrebtii, M. Roy, Y. Borensztein, and R. Del Sole,Physical Review Letters 76, 4923 – 4926 (1996).

40. Anisotropic optical response of the diamond (111)− 2× 1 surface,Cecilia Noguez, and S.E. Ulloa,Physical Review B 53, 13138 – 13145, (1996).

39. Optical spectroscopy study of hydrogenation of the Si(111)− 7× 7 surface,M. Roy, C. Beitia, Y. Borensztein, A.I. Shkrebtii, Cecilia Noguez, and R. Del Sole,Applied Surface Science, 104/105, 158 – 162 (1996).

38. Microscopic theory of electron transitions at Si(111)− 7× 7: optical properties and energy-loss spectra,Cecilia Noguez, A.I. Shkrebtii, and R. Del Sole,Surface Science 331 – 333, 1349 – 1354, (1995).

37. Disorder e�ects on the e�ective dielectric response of a linear chain of polarizable spheres,Cecilia Noguez, and Ruben G. Barrera,Physica A, 211 (4), 399 –410 (1994).

36. Model approach to the calculation of the Si(111)− 7× 7 optical properties,Cecilia Noguez, A.I. Shkrebtii, and R. Del Sole,Surface Science 318, 342 – 348, (1994).

35. A new diagrammatic summation for the e�ective dielectric response of composites,R. G. Barrera, Cecilia Noguez, and E. V. Anda,Journal of Chemical Physics 96 (2), 1574 – 1581, (1992).

Notas editoriales en revistas indizadas JCR (2)

34. Optics of Surfaces and Interfaces,Cecilia Noguez, Bernardo mendoza, Raul Esquivel-SirventPhysica Status Solidi (b) 249 1091 – 1091 (2012).

33. ISSPIC XV - 15th international symposium on small particles and inorganic clusters,Garzon Ignacio L.; Perez Luis A.; Diaz Gabriela, Cecilia Noguez,European Physical Journal D 63 169 – 169 (2011).

– Artıculos en revistas internacionales con estricto refereo no JCR

32. Optical Properties of Silver Nanoparticles, (35 citas)Ana L. Gonzalez, Cecilia NoguezPhysica Status Soildi (c) 4 (11), 4118 – 4126 (2007).– Al artıculo le dieron la portada del numero de la revista –

31. Optical properties of the cleavage InAs(110) surface, (2 citas)Xochitl Lopez-Lozano, Cecilia Noguez, L. Meza-Montes,Physica Status Solidi (c), 0, 2992 – 2996 (2003).

http://www.sciencedirect.com/science/article/B6WXB-45N4H8S-1B/2/8fec391d381b6546d4b67931e045c310

http://prl.aps.org/abstract/PRL/v76/i26/p4923_1


http://www.sciencedirect.com/science/article/B6THY-48C8NBW-10/2/55de16011f64ff51f35f06b0f96f3afc

http://www.sciencedirect.com/science/article/B6TVX-3YMWHXV-K2/2/5da2a7fbe9c27a1d2eb0f3933d41de41

http://www.sciencedirect.com/science/article/B6TVG-46FHCXD-5/2/0405bd7de624b3865035f90c44b5d817

http://www.sciencedirect.com/science/article/B6TVX-46R17R7-1J/2/472fd72c8acf1e2f72a77024cd223c7f

http://jcp.aip.org/resource/1/jcpsa6/v96/i2/p1574_s1


http://www.springerlink.com/content/p652l42568678784/

http://onlinelibrary.wiley.com/doi/10.1002/pssc.200675903/abstract




– Artıculos en revistas de circulacion local con arbitraje no JCR

30. Propiedades electronicas de la super�cie de Germanio (111) reconstruida 2× 1,Martın Solıs & Cecilia Noguez,Artıculo por invitacion en: TIP Revista Especializada en Ciencias Quımico-Biologicas, 3(1): 48 – 59 (2000).

29. Propiedades Viscoelasticas de Suspensiones Coloidales,R. Esquivel. G. Ramırez-Santiago & Cecilia Noguez,Artıculo por invitacion en: TIP Revista Especializada en Ciencias Quımico-Biologicas, 3(1): 14 – 22 (2000).

28. Calculation of the optical properties for the Si(111)-DAS model: 3× 3 reconstruction,Cecilia Noguez, A.I. Shkrebtii & R. Del Sole,Il Vuoto 24, 43 – 45 (1995).

– Capıtulos en libros

Circulacion internacional

27. Chapter 11: Localized Surface Plasmons of Multifaceted Metal Nanoparticles in Complex-Shaped Metal Nanoparticles:Bottom-Up Syntheses and Applications,Cecilia Noguez, Ana L. Gonzalez. (eds T. K. Sau and A. L. Rogach), Wiley-VCH Verlag GmbH & Co. KGaA, Weinheim,Germany. paginas 361 – 393 (Junio 2012). doi: 10.1002/9783527652570.ch11– Al capıtulo le dieron la portada del libro –

26. Quantum mechanical calculations of electronic and optical properties of semiconductor surfaces,Cecilia Noguez, and Olivia Pulci,“Quantum Chemical Calculations of Surfaces and Interfaces of Materials”, pages 217 –248,Editors: V. A. Basiuk and P. Ugliengo, American Scienti�c Publishers (2009).

Circulacion nacional

25. Cuando el futuro de la nanotecnologıa nos alcance,Cecilia Noguez, Grandes Retos del siglo XXI volumen 1, pag. 81 –92, editor H. Vasconselos, Universidad NacionalAutonoma de Mexico, Mexico D.F. 2014

24. Fısica a escala nanometrica en Perspectivas de la Fısica para el Siglo XXI,Cecilia Noguez. (eds O. Miramontes y K. Volke),CopIt-arXives 2012, Mexico DF, ISBN 978-0-9831172-9-2. paginas totales 18 (2012).

23. Propiedades opticas de nanopartıculas metalicas,Cecilia Noguez,en Nanoestructuras, editado por la Sociedad Mexicana de Cristalografıa, pags. 91 – 119 (2004).

22. Fısica de nanoestructuras: caracterizacion y propiedades opticas,Cecilia Noguez,X Escuela de verano ”La vision molecular de la materia”, Editores J. Recamier y R. Jauregui, pags. 147 – 160 (2002).

http://www.fisica.unam.mx/cecilia/22-TIP-2.pdf

http://www.fisica.unam.mx/cecilia/21-TIP-1.pdf

http://www.fisica.unam.mx/cecilia/vuoto.pdf

http://onlinelibrary.wiley.com/doi/10.1002/9783527652570.ch11/summary

http://onlinelibrary.wiley.com/doi/10.1002/9783527652570.ch11/summary

http://scifunam.fisica.unam.mx/mir/copit/PERSPECTIVAS/persp.html


– Memorias en extenso con arbitraje de circulacion internacional

21. Surface Plasmon Resonances of Metal Polyhedral NanoparticlesAna L. Gonzalez, Cecilia Noguez,NSTI – Nanotech 2006 1, 423 – 426 (2006).

20. Casimir force between a sphere and a plane: spectral representation formalism,Cecilia Noguez, Carlos E. Roman-Velazquez,en las memorias de “Quantum Field Theory Under the In�uence of External Conditions”, pags. 97 – 103, Rinton Press,Ed. por K. A. Milton (2004).

19. Casimir forces between nanoparticles and substratesCarlos Roman-Velazquez, Cecilia Noguez, C. Villarreal & R. Esquivel-Sirvent.MRS Proceedings Volume 738, pag. G7.35.1 – G7.35.6 (2003).

18. Light scattering by isolated nanoparticles with arbitrary shapes,Cecilia Noguez, Ivan Sosa, Ruben G. Barrera.2001 FALL MEETING PROCEEDINGS, Symposium W Nanoparticulate Materials, Editors: R.K. Singh, R. Partch, M. Muham-med, M. Senna, H. Hofmann, MRS Proceedings Volume 704, pag. 275 – 280 (2002).

17. Casimir Forces between thermally activated nanocompositesRaul Esquivel-Sirvent, C. Villarreal, Cecilia Noguez,2001 FALL MEETING PROCEEDINGS, Symposium V Nanophase and Nanocomposite Materials IV, Editors: S. Komarneni,R.A. Vaia, G.Q. Lu, J-I. Matsushita, J.C. Parker, MRS Proceedings Volume 703, pag. 99 – 104 (2002).

16. Optical Characterization of a Spheroidal Nanoparticle on a Substrate,Carlos E. Roman-Velazquez, Cecilia Noguez, R.G. Barrera,MRS Symposium Proceedings Vol. 581, 485 – 490 (2000); Nanophase and Nanocomposite Materials III, Editores: S.Komarneni, J.C. Parker, H. Hahn.

15. Acoustic signature of defects of SiC/porous SiC laminated ceramics,R. Esquivel-Sirvent, Cecilia Noguez,MRS Symposium Proceedings Vol. 458, 397 – 402 (1997); editado por C. Briant, B. Carter and E. Hall.

14. Optical signature of the GaN(1010) surface,Cecilia Noguez, R. Esquivel-Sirvent, D.R. Alfonso, S.E. Ulloa and D.A. Drabold,MRS Symposium Proceedings Vol. 449, pp. 911 – 916, (1997); editado por F.A. Ponce, T.D. Moustakas, I. Akasaki, B.A.Monemar.

13. Microscopic theory of the optical properties of Si(111)− 7× 7,Cecilia Noguez, A.I. Shkrebtii &R. Del Sole,22nd International Conference on the Physics of Semiconductors. 1995. p. 451 – 454 vol.1. Vancouver, BC, Canada.15-19 Aug. 1994. vol.1. Publisher World Scienti�c Singapore, 1995.

12. Dielectric response of a chain of disordered polarizable spheres: numerical simulation and theory,Pedro Villasenor-Gonzalez, Cecilia Noguez &Ruben G. Barrera,“Applications of multiple scattering theory to material science”, MRS Symposium Proceedings, Vol. 253, pags.123 –128, ed. por William H. Butler, Peter H. Dederichs, A. Gonis and R. Weaver, MRS, Pittsburgh, (1992).

11. The optical response of composites at low �lling fractions: a new diagrammatic summation,Ruben G. Barrera, Cecilia Noguez, & Enrique V. Anda,


Surface Sciences: lectures on basic concepts and applications, Vol.62 pags. 249 – 255, ed. por F.A. Ponce y M. Cardona,Springer-Verlag, Berlın, (1991).

10. E�ective dielectric response of composites: a new diagrammatic approach,Ruben G. Barrera, Cecilia Noguez & Enrique V. Anda,Condensed Matter Theories, Vol. 5, pags. 209 – 216, ed. por V.C. Aguilera-Navarro, Plenum Press, New york, (1990).

– Memorias en extenso en espanol

9. Birrefringencia optica exhibida por nanopartıculas metalicas de plata deformadas,Torres-Torres C., Reyes-Esqueda J.A., Cheang-Wong J. C., Crespo-Sosa A., Rodrıguez-Fernandez L., Noguez C., Oliver A.,XX Reunion Anual de Optica, 2007.

8. Comportamiento optico de partıculas en escala nanometricaCecilia Noguez,Memoria IV encuentro “Participacion de la mujer en la Ciencia”, ISBN 978-968-9241-03-4. Leon Guanajuato, Mayode 2007.

7. Calculo de Espectros de Dicroısmo Circular de Nanotubos QuiralesAriadna Sanchez-Castillo, Carlos E. Roman Velazquez, Cecilia Noguez, & L. Meza-MontesMemorias VI Taller Nacional de Estudiantes de Posgrado en Fısica y Ciencia de Materiales, Puebla 2004.

6. Estudio teorico de nanotubos de carbono por medio de dicroısmo circularAriadna Sanchez-Castillo, Carlos E. Roman Velazquez, Cecilia Noguez, & L. Meza-MontesMemorias del IX Encuentro Regional de Investigacion y Ensenanza de la Fısica, 2004.

5. Propiedades electronicas de super�cies semiconductoras idealesXochitl Lopez Lozano, Cecilia Noguez, & L. Meza MontesMemorias del V Taller Nacional de Fısica y Ciencia de Materiales para Estudiantes de Posgrado, F. Perez Rodrıguez et.al., BUAP 2003, ISBN 968 863 683 5, Mexico.

4. Propiedades electronicas de las super�cies semiconductoras ideales GaAs e InAsXochitl Lopez Lozano, Cecilia Noguez, & L. Meza MontesMemorias del VIII Encuentro Regional de Investigacion y Ensenanza de Fısica, 2002. (en CD)

– Artıculos de divulgacion

3. Y se hizo la luz (Nota editorial),Cecilia Noguez & R. JaureguiCiencia 63 (3), pp 6–7 (2016).

2. Comprimiendo la luz,Cecilia Noguez,Ciencia 63 (3), pp 39–45 (2016).

1. Nanociencia y Nanotecnologıa,Ignacio L. Garzon & Cecilia Noguez,Ciencia y Tecnologıa 30, 46 –49 (2005).


CITAS (3545)

TOTAL CITAS 3545

CITAS SIN AUTOCITAS (93.87 %) 3328TIPO A: Citas externas (90.16 %) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3193TIPO B: Citas por coautores (3.70 %) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 131

AUTOCITAS (6.13 %) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 217

INDICE h 25

CITAS en Google Academico (ultima consulta el 9 de marzo de 2018) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4253Puede consultar el sitio web http://scholar.google.com.mx/citations?user=9JVn-G0AAAAJ&hl=es

C.A. = autor lıder o responsable de la publicacionTabla informativa de citas ISI (WoS) & SCOPUS (3545)

ARTICULO ANO C.A. AUTOR(ES) CITAS TIPO A TIPO B TIPO C1 J. Phys. Chem C 111 3806 2007 X Noguez 1019 1009 – 102 J. Phys. Chem. B 107 63269 2003 X Sosa et al. 569 559 2 83 Plasmonics 3 127 2008 Zhang et al. 234 225 6 34 Chem. Soc. Rev. 38 757 2009 X Noguez et al. 193 186 2 55 Opt. Mater. 27 1204 2005 X Noguez 124 111 – 136 Phys. Rev. B 74 245425 2006 X Oliver et al. 96 66 27 37 J. Phys. Chem. B 107 12035 2003 X Roman-Velazquez et al. 88 80 2 68 J. Comp. Theor. Nanosci. 4 273 2007 X Gonzalez et al. 84 75 1 89 J. Am. Chem. Soc. 132 1504 2010 X Sanchez-Castillo et al. 80 71 3 610 Phys. Rev. Lett. 76 4923 1996 Noguez et al. 76 49 23 411 J. Phys. Chem. C 112 7356 2008 X Gonzalez et al. 74 64 5 512 J. Phys. Chem. B 109 17512 2005 X Gonzalez et al. 64 53 3 813 J. Phys. Chem. C 112 17533 2008 Santizo et al. 45 35 4 614 Phys. Rev. B 73 045401 2006 X Sanchez-Castillo et al. 39 36 – 315 Phys. Rev. B 61 10427 2000 X Roman-Velazquez et al. 39 28 1 1016 Phys. Sta. Sol. (c) 4 4118 2007 X Gonzalez et al. 36 29 1 617 Phys. Rev. B 73 035430 2006 Lopez-Lozano et al. 36 31 5 –18 Opt. Exp. 16 710 2008 Reyes-Esqueda et al. 35 24 9 219 J Phys Chem C 118 9128 2014 X Gonzalez et al. 30 24 3 320 J. Phys. Chem. Lett. 2 1038 2011 X Noguez et al. 30 27 – 321 J. Phys. Chem. C 114 9640 2010 X Sanchez-Castillo et al. 29 24 – 522 Surf. Sci. 331-333 1349 1994 Noguez et al. 26 20 1 523 Phys. Rev. B 54 8028 1996 Alonso et al. 26 23 1 224 Eur. Phys. Lett. 67 191 2004 X Noguez et al. 25 19 6 –25 J. Chem. Phys. 96 1574 1992 Barrera et al. 25 18 2 526 J. Phys. Chem. Lett. 2 1978 2011 X Angulo et al. 24 21 1 227 Nature Nanotechnol. 11 520 2016 Kim et al. 23 21 1 128 Phys. Rev. B 79 075438 2009 X Hidalgo et al. 22 12 – 1029 J. Phys. Chem. A 113 4068 2009 X Roman-Velazquez et al. 21 16 2 330 Phys. Rev. B 70 195412 2004 X Noguez et al. 21 16 2 3

http://scholar.google.com.mx/citations?user=9JVn-G0AAAAJ&hl=es


Lista de citas sin autocitas A+B (=3328)

ARTICULO (citas 1009):Surface Plasmons on Metal Nanoparticles: The In�uence of Shapeand Physical Environment, Cecilia Noguez, J Phys Chem C (FeatureArticle) 111 (10) 3806-3819 (2007).

TIPO A (1009):

3328. Boris N. Khlebtsov, Andrei Melnikov and Nikolai G. Khlebtsov,On the extinction multipole plasmons in gold nanorods, J.Quantitative Spectroscopy and Radiative Transfer 107, 306(2007)

3327. Stener, M.; Nardelli, A.; De Francesco, R.; Fronzoni, G., Op-tical Excitations of Gold Nanoparticles: A Quantum Chemi-cal Scalar Relativistic Time Dependent Density FunctionalStudy, J. Phys. Chem. C (2007) 111, 11862

3326. Khlebtsov, B. N.; Khlebtsov, N. G, Multipole Plasmons in Me-tal Nanorods: Scaling Properties and Dependence on Parti-cle Size, Shape, Orientation, and Dielectric Environment, J.Phys. Chem. C (2007) 111, 11516

3325. A. B. Evlyukhin, G. Brucoli, L. Martın-Moreno, S. I. Boz-hevolnyi, and F. J. Garcıa-Vidal, Surface plasmon polari-ton scattering by �nite-size nanoparticles, Phys. Rev. B 76,075426 (2007)

3324. V.V. Klimov and D.V. Guzatov, Pasmonic atoms and plasmo-nic molecules, Journal Applied Physics A: Materials Science& Processing, 89, 305 (2007).

3323. Sprunken, D. P.; Omi, H.; Furukawa, K.; Nakashima, H.; Sy-chugov, I.; Kobayashi, Y.; Torimitsu, K., In�uence of the Lo-cal Environment on Determining Aspect-Ratio Distributionsof Gold Nanorods in Solution Using Gans Theory, J. Phys.Chem. C 111, 14299 (2007)

3322. K Munechika, J M. Smith, Y Chen, D S. Ginger, Plasmon LineWidths of Single Silver Nanoprisms as a Function of ParticleSize and Plasmon Peak Position, J. Phys. Chem. C 111, 18906(2007)

3321. M Sukharev, J Sung, K G. Spears, T Seideman, Optical pro-perties of metal nanoparticles with no center of inversionsymmetry: Observation of volume plasmons, Phys. Rev. B76, 184302 (2007)

3320. Evlyukhin, A.B., Leksin, A.Yu , Gerke, M.N. , Evlyukhina, E.V.,Resonance near-�eld optical response of metal nanoparti-cle structures in a layer environment, Proceedings of SPIE- The International Society for Optical Engineering Volume6728, 2007, Article number 672819.

3319. E. Carbo-Argibay, B. Rodrıguez-Gonzalez, J. Paci�co, I.Pastoriza-Santos, J. Perez-Juste, L. M. Liz-Marzan, Chemi-cal Sharpening of Gold Nanorods: The Rod-to-OctahedronTransition, Angewandte Chemie 119, 9141 (2007)

3318. Bryant, G. W.; Garcia de Abajo, F. J.; Aizpurua, J., Mappingthe Plasmon Resonances of Metallic Nanoantennas, NanoLett. 8, 631 (2008)

3317. L Shang, S Dong, Detection of neurotransmitters by a lightscattering technique based on seed-mediated growth ofgold nanoparticles, Nanotechnology 19, 095502 (2008)

3316. Olkhov, R.V., Shaw, A.M., Label-free antibody-antigen bin-ding detection by optical sensor array based on surface-synthesized gold nanoparticles, Biosensors and Bioelectro-nics 23, 1298 (2008)

3315. Henry, Kiely, Sir Thomas , Russell, Ricolleau, Bond, Geng,Mattei, Johnston, Mejia , Lievens, Ferrando, Henry, Leiva,El-Shall, Fortunelli, Broyer, Jellinek, Langlois, Baletto, Geng, Hou, Hampe, Ellis, Scho�eld, Hutchings, Johnson, Pastor,Marsault, Baletto General Discussion, Faraday Discussions138, 421 (2008)

3314. Song, Y., Yanga, W., King, M Shape controlled synthesis ofsub-3 nm Ag nanoparticles and their localized surface plas-monic properties, Chemical Physics Letters 455, 218 (2008)

3313. Bae, Y.; Kim, N. H.; Kim, M.; Lee, K. Y.; Han, S. W.; AnisotropicAssembly of Ag Nanoprisms, J. Am. Chem. Soc. 130, 5432(2008)

3312. Mazurenka, M.; Hamilton, S. M.; Unwin, P. R.; Mackenzie,S. R.; In-Situ Measurement of Colloidal Gold Adsorption onFunctionalized Silica Surfaces, J. Phys. Chem. C 112, 6462(2008)

3311. M. Hu, C. Novo, A. Funston, H. Wang, H. Staleva, S. Zou,P. Mulvaney, Y. Xia, G V. Hartland, Dark-�eld microscopystudies of single metal nanoparticles: understanding thefactors that in�uence the linewidth of the localized surfa-ce plasmon resonance, J. Mater. Chem. 18, 1949 (2008)

3310. Hsu, Y.-J.; Lu, S.-Y.; Lin, Y.-F.; Spontaneous Reduction of Me-tal Ions Initiated by Ethylenediamine-Capped CdS Nanowi-res: A Sensing Mechanism Revealed, Chem. Mater. 20, 2854(2008)

3309. Juluri, B. K.; Zheng, Y. B.; Ahmed, D.; Jensen, L.; Huang, T. J.,E�ects of Geometry and Composition on Charge-InducedPlasmonic Shi�s in Gold Nanoparticles, J. Phys. Chem. C.112, 7309 (2008)


ARTICULO ANO C.A. AUTOR(ES) CITAS TIPO A TIPO B TIPO C31 J. Chem. Phys. 134 044116 2011 X Roman-Velazquez et al. 19 15 – 432 J. Phys. Chem. A 112 5834 2008 X Angulo et al. 17 13 – 433 Phys. Rev. B 57 302 1998 X Noguez et al. 17 14 – 334 Phys. Rev. B 58 12641 1998 X Noguez 16 10 – 635 J Phys Chem C 116 14170 2012 X Gonzalez et al. 15 11 1 336 Phys. Sta. Sol. (b) 247 1889 2010 X Hidalgo et al. 15 12 – 337 Eur. Phys. J. D 52, 179 2009 X Hidalgo et al. 15 9 1 538 Surf. Sci. 318 342 1994 Noguez et al. 14 10 1 339 ACS Nano 7 513 2013 X Hidalgo et al. 13 10 – 340 Phys. Rev. A 69 042109 2004 X Roman-Velazquez et al. 12 8 1 341 Phys. Rev. B 58 7367 1998 X Esquivel-Sirvent et al. 12 8 – 442 Phys. Rev. B53 13138 1996 X Noguez et al. 12 5 – 743 Phys. Rev. B 62 2681 2000 X Noguez 11 10 – 144 Phys. Rev. B 56 9719 1997 X Noguez et al. 11 10 – 145 J Phys Chem C 119 10824 2015 X Becerril et al. 9 7 – 246 Nanoscale 6 3325 2014 X Hidalgo et al. 9 7 – 247 J Mat Chem C 1 3150 2013 X Gonzalez et al. 8 6 – 248 Supp. &Micro. 20 405 1996 X Noguez et al. 8 5 2 149 Physica A 211 399 1994 Noguez et al. 8 6 – 250 Phys. Rev. B 71 125337 2005 X Lopez-Lozano et al. 6 2 4 –51 Physica B 279 2000 Beitia et al. 6 3 1 252 Phys. Sta. Sol. (a)175 57 1999 X Noguez 6 5 – 153 Chirality 26 2014 X Hidalgo et al. 5 3 – 254 J. Phys. A 39 6695 2006 X Roman-Velazquez et al. 5 3 2 –55 MRS Proceedings Vol. 704 2002 X Noguez et al. 5 4 – 156 Phys. Sta. Sol. (a)175 393 1999 X Roman-Velazquez et al. 4 3 – 157 J. Appl. Phys. 82 3618 1997 Esquivel-Sirvent et al. 4 4 – –58 Appl. Surf. Sci. 104 158 1996 Roy et al. 4 4 – –59 Nanoscale 8 14457 2016 X Hidalgo et al. 3 3 – –60 MRS Proceedings Vol. 703 2002 Esquivel-Sirvent et al. 3 – 3 –61 MRS Proceedings Vol. 449 1997 X Noguez et al. 3 2 – 162 MRS Proceedings, Vol. 253 1993 Villasenor-G. et al. 3 3 – –63 Phys. Sta. Sol. (c) 0 2992 2003 X Lopez-Lozano et al. 2 2 – –64 Quantum Field Theory . . . 2004 X Noguez et al. 2 1 – 165 J Phys Chem C 120 2349 2016 X Diaz et al. 1 – 1 166 Phys. Sta. Sol. (b) 252 2015 X Noguez et al. 1 1 – –67 Cap. Quantum Chem. Calculations 2009 X Noguez et al. 1 – 1 –68 MRS Proceedings Vol. 581 2000 X Roman-Velazquez et al. 1 – – 169 Com. Privada 1998 Noguez 1 1 – –70 Surface Sciences Proceedings Vol. 62 1990 Barrera et al. 1 – 1 –

TOTALES 3545 = 3197 + 131 + 217

3308. D Ferrer, D A. Blom, L F. Allard, S Mejıa, E Perez-Tijerina,M Jose-Yacaman, Atomic structure of three-layer Au/Pdnanoparticles revealed by aberration-corrected scanningtransmission electron microscopy, J. Mater. Chem. 18, 2442

(2008).

3307. R Brahma, M G Krishna, Ion beam sputtered ultra-thin andnanostructured Ag �lms for surface plasmon applications,


Nuclear Instruments and Methods in Physics Research Sec-tion B: Beam Interactions with Materials and Atoms 266,1493 (2008)

3306. Nehl, C.L., Hafner, J.H. Shape-dependent plasmon resonan-ces of gold nanoparticles, J. Materials Chemistry 18, 2415(2008).

3305. Yu, K.; Kelly, K. L.; Sakai, N.; Tatsuma, T., Morphologiesand Surface Plasmon Resonance Properties of Monodisper-se Bumpy Gold Nanoparticles, Langmuir 24, 5849 (2008)

3304. Mitra, R. N.; Das, P. K. In situ Preparation of Gold Nanopar-ticles of Varying Shape in Molecular Hydrogel of PeptideAmphiphiles J. Phys. Chem. C. 112, 8159 (2008)

3303. Cao, ZW; Fu, HB; Kang, LT; Huang, LW; Zhai, TY; Ma, Y; Yao, JN;Rapid room-temperature synthesis of silver nanoplates withtunable in-plane surface plasmon resonance from visible tonear-IR J. Mater. Chem. 18, 2673 (2008).

3302. V.V. Klimov, A. Lambrecht, Plasmonic nature of van derWaals forces between nanoparticles, Plasmonics 4, 31(2009)

3301. M. Pelton, J. Aizpurua, G. Bryant, Metal-nanoparticle plas-monics, Laser & Photonics Reviews 2, 136-159 (2008)

3300. Chen, Y; Munechika, K; Ginger, DS Bioenabled nanophoto-nics, MRS Bulletin 33, 536 (2008)

3299. Neretina, S.; Qian, W.; Dreaden, E.; El-Sayed, M. A.; Hughes,R. A.; Preston, J. S.; Mascher, P. Plasmon Field E�ects onthe Nonradiative Relaxation of Hot Electrons in an Electro-nically Quantized System: CdTe-Au Core-Shell Nanowires,Nano Lett. 8 2410 (2008)

3298. Song, Y.; Zhang, T.; Yang, W.; Albin, S. Correlating PlasmonResonance Spectra with Three-Dimensional Morphology ofSingle Silver Nanoparticles, J. Phys. Chem. C. 112 10767(2008)

3297. Qingbo Zhang, Yen Nee Tan, Jianping Xie and Jim Yang Lee, Colloidal Synthesis of Plasmonic Metallic NanoparticlesPlasmonics 4, 9 (2009)

3296. Aikens, C. M.; Li, S.; Schatz, G. C. From Discrete ElectronicStates to Plasmons: TDDFT Optical Absorption Properties ofAgn (n = 10, 20, 35, 56, 84, 120) Tetrahedral Clusters, J.Phys. Chem. C. 112 11272 (2008)

3295. Ovchinnikov, V., Shevchenko, A. Surface plasmon resonan-ces in di�usive re�ection spectra of multilayered silvernanocomposite �lms, Proceedings - The 2nd InternationalConference on Quantum-, Nano- and Micro-technologies,ICQNM 2008, art. no. 4455929, pp. 40-44

3294. YuMeng You, ChaoLing Du, Yun Ma, Johnson Kasim, TingYu and ZeXiang Shen, E�ect of near-�eld coupling on far-�eld inelastic scattering imaging of gold nanoparticles Na-notechnology 19, (2008) 395705

3293. Dickerson, E.B., Dreaden, E.C., Huang, X., El-Sayed, I.H., Chu,H., Pushpanketh, S., McDonald, J.F., El-Sayed, M.A., Gold na-norod assisted near-infrared plasmonic photothermal the-rapy (PPTT) of squamous cell carcinoma in mice, CancerLetters 269 57 (2008)

3292. A. Burchianti, A. Bogi, C. Marinelli, C. Maibohm, E. Mariotti,S. Sanguinetti, L. Moi, Optical characterization and mani-pulation of alkali metal nanoparticles in porous silica, TheEuropean Physical Journal D 49, 201 (2008)

3291. Olson, T.Y., Zhang, J.Z., Structural and optical properties andemerging applications of metal nanomaterials, J. MaterialsScience and Technology 24, 433 (2008).

3290. Gracia-Pinilla, M. A.; Perez-Tijerina, E.; Garcıa, J. A.;Fernandez-Navarro, C.; Tlahuice-Flores, A.; Mejıa-Rosales,S.; Montejano-Carrizales, J. M.; Jose-Yacaman, M. On theStructure and Properties of Silver Nanoparticles, J. Phys.Chem. C. 112, 13492 (2008).

3289. Du, C.L., You, Y.M., Kasim, J., Ni, Z.H., Yu, T., Wong, C.P., Fan,H.M., Shen, Z.X., Confocal white light re�ection imaging forcharacterization of metal nanostructures, Optics Communi-cations 281, 5360 (2008)

3288. Stener, M., Nardelli, A., Fronzoni, G., Theoretical study on thephotoabsorption of M Au12− (M = V, Nb and Ta), ChemicalPhysics Letters 462, 358 (2008)

3287. Myroshnychenko, V., Rodrıguez-Fernandez, J., Pastoriza-Santos, I., Funston, A.M., Novo, C., Mulvaney, P., Liz-Marzan,L.M., Garcıa De Abajo, F.J. Modelling the optical responseof gold nanoparticles, Chemical Society Reviews 37, 1792(2008)

3286. J Tang, E V Ponizovskaya, A M Bratkovsky, D R Stewart, ZLi and R S Williams, Metallic nanocrystals near ultrasmoothmetallic �lms for surface-enhanced Raman scattering ap-plication, Nanotechnology 19, 415702 (2008)

3285. Seol Ji Kim, Du-Jeon Jang, Hybridized surface-plasmon re-sonances of platinum colloid-adsorbed gold nanospheres,Materials Letters 62, 4500 (2008).

3284. Ju-Nam Y, Lead JR, Manufactured nanoparticles: An over-view of their chemistry, interactions and potential environ-mental implications, Sci Total Environ 400, 396 (2008)

3283. N.N. Nedyalkov, et al., Near �eld localization mediated by asingle gold nanoparticle embedded in transparent matrix:Application for surface modi�cation, Appl. Surf. Sci. 255,5125 (2009)


3282. Kogan, B., Andronova, N., Khlebtsov, N., Khlebtsov, B., Ru-doy, V., Dementeva, O., Sedykh, E., Bannykh, L., Pharma-cokinetic study of PEGylated plasmon resonant gold na-noparticles in tumor-bearing mice, Technical Proceedingsof the 2008 NSTI Nanotechnology Conference and TradeShow, NSTI-Nanotech, Nanotechnology 2008 2, pp. 65-68

3281. A. Toma, D. Chiappe, D. Massabo, C. Boragno, F. Buatier deMongeot, Self-organized metal nanowire arrays with tuna-ble optical anisotropy, Appl. Phys. Lett. 93, 163104 (2008)

3280. Khlebtsov, N.G. Optics and biophotonics of nanoparticleswith a plasmon resonance, Quantum Electronics 38, 504(2008)

3279. Reyes-Esqueda, J.A., Salvador, A.B., Zanella, R., Size controlof Au nanoparticles on TiO2 and Al 2O3 by DP Urea: Opticalabsorption and electron microscopy as control probes, J.Nanoscience and Nanotechnology 8, 3843 (2008)

3278. L Huang, Y Zhai, S Dong, J Wang E�cient preparation ofsilver nanoplates assisted by non-polar solvents, J of Colloidand Interface Science 331, 384 (2009)

3277. Rouslan V. Olkhov, Jeremy D. Fowke, Andrew M. Shaw, Wholeserum BSA antibody screening using a label-free biopho-tonic nanoparticle array, Analytical Biochemistry 385, 234(2009)

3276. Zhao J, Pinchuk AO, Mcmahon JM, Li SZ1, Alisman LK, Atkin-son AL, Schatz GC; Methods for Describing the Electromag-netic Properties of Silver and Gold Nanoparticles, Accountsof Chem. Research 41 1710 (2008)

3275. Skrabalak SE, Chen JY, Sun YG, Lu XM, Au L, Cobley CM, XiaYN; Gold Nanocages: Synthesis, Properties, and ApplicationsAccounts of Chem. Research 41 1587 (2008)

3274. Myroshnychenko V, Carb-Argibay E, Pastoriza-Santos I,Perez-Juste J, Liz-Marzan LM, de Abajo FJG; Modeling theOptical Response of Highly Faceted Metal Nanoparticleswith a Fully 3D Boundary Element Method, Adv. Materials20, 4288 (2008)

3273. J. Preclıkova, F. Trojanek, P. Necaronmec, P. Maly, Multicolourphotochromic behaviour of silver nanoparticles in titaniumdioxide matrix, physica status solidi (c) 5, 3496 (2008).

3272. Toderas, F., Baia, M., Farcau, V., Asttlean, S., Ulinici, S.; Tuningof gold nanoparticles plasmon resonances by experimentand simulation, J. Optoelectronics and Advanced Materials10 3265 (2008)

3271. Wu, PC; Losurdo, M; Kim, TH; Giangregorio, M; Bruno, G;Everitt, HO; Brown, AS; Plasmonic Gallium Nanoparticles onPolar Semiconductors: Interplay between Nanoparticle Wet-ting, Localized Surface Plasmon Dynamics, and InterfaceCharge, Langmuir 25, 924 (2009)

3270. Tong, L; Wei, QS; Wei, A; Cheng, JX; Gold Nanorods as Con-trast Agents for Biological Imaging: Optical Properties, Sur-face Conjugation and Photothermal E�ects Photochimestryand Photobiology 85, 21-32 (2009)

3269. L Shang and S Dong, Design of Fluorescent Assays for Cya-nide and Hydrogen Peroxide Based on the Inner Filter E�ectof Metal Nanoparticles, Anal. Chem., 81 1465 (2009)

3268. Kawamura, G., Yang, Y., Fukuda, K., Nogami, M. Shape con-trol synthesis of multi-branched gold nanoparticles, Mate-rials Chemistry and Physics 115, 229 (2009)

3267. S Neretina, W Qian, EC Dreaden, MA El-Sayed Exciton Lifeti-me Tuning by Changing the Plasmon Field Orientation withRespect to the Exciton Transition Moment Direction: CdTe-AuCore-Shell Nanorods, Nano Lett. 9, 1242 (2009)

3266. H H Richardson, M T Carlson, P J Tandler, P Hernandez, AO. Govorov Experimental and Theoretical Studies of Light-to-Heat Conversion and Collective Heating E�ects in MetalNanoparticle Solutions, Nano Lett. 9, 1139 (2009)

3265. G Stochel, Z Stasicka, M Brindell, W Macyk, BioinorganicPhotochemistry, Wiley-Blackwell, Singapore (2009)

3264. DM Ledwith, D Aherne JM KellyApproaches to the Synthesisand Characterization of Spherical and Anisotropic Silver Na-nomaterials in Metallic Nanomaterials (Nanomaterials forLife Sciences (VCH)) edited by C. Kumar, Wiley VCH Verlag,Germany 2009

3263. Neretina S, Qian W, Dreaden EC, El-Sayed MA, Hughes RA,Preston JS, Mascher P Exciton Lifetime Tuning by Changingthe Plasmon Field Orientation with Respect to the ExcitonTransition Moment Direction: CdTe-Au Core-Shell Nanorods,Nano Letters 9, 1242 (2009)

3262. Zhao WB, Park J, Caminade AM, Jeong SJ, Jang YH, Kim SO,Majoral JP, Cho J, Kim DH Localized surface plasmon re-sonance coupling in Au nanoparticles/phosphorus dendri-mer multilayer thin �lms fabricated by layer-by-layer self-assembly method, J Materials Chemistry 19, 2006 (2009)

3261. X Dong, X Ji, H Wu, L Zhao, J Li and W Yang Shape Control ofSilver Nanoparticles by Stepwise Citrate Reduction, J. Phys.Chem. C 113, 6573 (2009)

3260. H. Portales, N Pinna, M.-P. Pileni, Optical Response of Ultra-�ne Spherical Silver Nanoparticles Arranged in HexagonalPlanar Arrays Studied by the DDA Method, J. Phys. Chem. A113, 4094 (2009)

3259. Zhu, J Shi� Fashion of Surface Plasmon Resonances in Non-Spherical Gold Nanoparticles: A Simple Model of SurfacePlasmon Dynamics, Current Nanoscience 5, 216 (2009)


3258. L Liu, T Wei, X Guan, X Zi, H He, H Dai, Size and MorphologyAdjustment of PVP-Stabilized Silver and Gold NanocrystalsSynthesized by Hydrodynamic Assisted Self-Assembly, J.Phys. Chem. C 113, 8595 (2009)

3257. A Pyatenko, M Yamaguchi, M Suzuki Mechanisms of SizeReduction of Colloidal Silver and Gold Nanoparticles Irra-diated by Nd:YAG Laser, J. Phys. Chem. C 113, 9078 (2009)

3256. F Buatier de Mongeot, U Valbusa Applications of metal sur-faces nanostructured by ion beam sputtering, J. Phys.: Con-dens. Matter 21 224022 (2009)

3255. A Moores, P Le Floch, The metal nanoparticle plasmon bandas a powerful tool for chemo and biosensing, 137 – 176in Biosensing Using Nanomaterials (Wiley Nanoscience andNanotechnology Series), edited by A. Merkoci, John Wiley& Sons. 2009 UK.

3254. HJ Parab, HM Chen, NC Bagkar, R-S Liu, Y-K Hwu, DP Tsai Ap-proaches to the Synthesis and Characterization of Sphericaland Anisotropic Noble Metal Nanoparticles in Metallic Na-nomaterials (Nanomaterials for Life Sciences (VCH)) editedby C. Kumar, Wiley VCH Verlag, Germany 2009

3253. Y Guillet, E Charron, B Palpant, Spectral dependence of theultrafast optical response of nonspherical gold nanoparti-cles, Phys. Rev. B 79 195432 (2009)

3252. A. Karabchevsky, O. Krasnykov, I. Abdulhalim, B. Hadad, A.Goldner, M. Auslender, S. Hava, Metal grating on a substra-te nanostructure for sensor applications, Photonics and Na-nostructures - Fundamentals and Applications 7, 170 (2009)

3251. T. Pradeep, Anshup, Noble metal nanoparticles for water pu-ri�cation: A critical review, Thin Solid Films 517, 6441 (2009)

3250. Shang, L., Qin, C., Jin, L., Wang, L., Dong, S., Turn-on �uo-rescent detection of cyanide based on the inner �lter e�ectof silver nanoparticles Analyst 134, 1477 (2009)

3249. Chen FY, Johnston RL, Plasmonic Properties of Silver Nano-particles on Two Substrates, Plasmonics 4, 147 (2009)

3248. Terentyuk, GS; Maslyakova, GN; Suleymanova, LV; Khleb-tsov, BN; Kogan, BY; Akchurin, GG; Shantrocha, AV; Maksi-mova, IL; Khlebtsov, NG; Tuchin, VV, Circulation and distribu-tion of gold nanoparticles and induced alterations of tissuemorphology at intravenous particle delivery, J. of Biopho-tonics 2, 292 (2009)

3247. N. I. Cade, T. Ritman-Meer, and D. Richards, Plasmonic en-gineering of silver �lms for enhanced �uorescence and Ra-man scattering Progress in Biomedical Optics and Imaging- Proceedings of SPIE 7192, art. no. 71920J (2009)

3246. Cade, NI; Ritman-Meer, T; Richards, D Strong coupling oflocalized plasmons and molecular excitons in nanostruc-tured silver �lms, Phys. Rev B 79, 241404 (2009) and ar-Xiv:0904.2674v1

3245. Zhang, SX; Gao, JF; Buchholz, TA; Wang, ZL; Salehpour, MR;Drezek, RA; Yu, TK, Quantifying tumor-selective radiationdose enhancements using gold nanoparticles: a monte car-lo simulation study, Biomed. Microdevices 11, 925 (2009)

3244. Bishop, KJM; Wilmer, CE; Soh, S; Grzybowski, BA, Nanosca-le Forces and Their Uses in Self-Assembly, Small 5, 1600(2009)

3243. Chan YH, Chen JX, Wark SE, Skiles SL, Son DH, BatteasJD Using Patterned Arrays of Metal Nanoparticles to ProbePlasmon Enhanced Luminescence of CdSe Quantum Dots,ACS Nano 3, 1735 (2009)

3242. Reyes-Esqueda, JA; Rodriguez-Iglesias, V; Silva-Pereyra, HG;Torres-Torres, C; Santiago-Ramirez, AL; Cheang-Wong, JC;Crespo-Sosa, A; Rodriguez-Fernandez, L; Lopez-Suarez, A;Oliver, A, Anisotropic linear and nonlinear optical propertiesfrom anisotropy-controlled metallic nanocomposites, OpticsExpress 17, 12849 (2009)

3241. Losurdo, M., Giangregorio, M.M., Bianco, G.V., Sacchetti,A., Capezzuto, P., Bruno, G., Enhanced absorption in Aunanoparticles/a-Si:H/c-Si heterojunction solar cells exploi-ting Au surface plasmon resonance, Solar Energy Materialsand Solar Cells 93, 1749 (2009)

3240. Newman, J.D.S., MacCrehan, W.A., The e�ect of aniline con-centration in the ligand exchange reaction with citrate-stabilized gold nanoparticles, Langmuir 25, 8993 (2009)

3239. DAgostino, S., Pompa, P.P., Chiuri, R., Phaneuf, R.J., Britti, D.G.,Rinaldi, R., Cingolani, R., Della Sala, F., Enhanced �uorescen-ce by metal nanospheres on metal substrates, Optics Letters34, 2381 (2009)

3238. O. J. Glembocki, R. W. Rendell, D. A. Alexson, S. M. Prokes, A.Fu, and M. A. Mastro Dielectric-substrate-induced surface-enhanced Raman scattering, Phys. Rev. B 80, 085416(2009)

3237. Aherne, D; Charles, DE; Brennan-Fournet, ME; Kelly, JM;Gun’ko, YK, Etching-Resistant Silver Nanoprisms by Epita-xial Deposition of a Protecting Layer of Gold at the Edges,Langmuir 25, 10165 (2009)

3236. Mayoral, A; Vazquez-Duran, A; Barron, H; Jose-Yacaman,M, Polyhedral shaped gold nanoparticles with outstandingnear-infrared light absorption, Appl. Phys. 97, 11 (2009)

3235. Duan, JS; Park, K; MacCuspie, RI; Vaia, RA; Pachter, R, OpticalProperties of Rodlike Metallic Nanostructures: Insight fromTheory and Experiment, J. Phys. Chem. C 113, 15524 (2009)


3234. Rodriguez-Iglesias, V; Silva-Pereyra, HG; Torres-Torres, C;Reyes-Esqueda, JA; Cheang-Wong, JC; Crespo-Sosa, A;Rodriguez-Fernandez, L; Lopez-Suarez, A; Oliver, A, Lar-ge and anisotropic third-order nonlinear optical responsefrom anisotropy-controlled metallic nanocomposites, Op-tics Communications 282, 4157 (2009)

3233. Al-Qadi, B., Toshiharu, S. A study of optical anisotropy fornearly spherical gold nanoparticles: Toward a sensitive de-tection using polarization microscopy in biomolecular ap-plications, Progress in Biomedical Optics and Imaging - Pro-ceedings of SPIE 7190, 719016 (2009)

3232. Simsek E, On the Surface Plasmon Resonance Modes ofMetal Nanoparticle Chains and Arrays, Plasmonics 4, 223(2009)

3231. Maduraiveeran, G., Ramaraj, R., Potential sensing platformof silver nanoparticles embedded in functionalized silicateshell for nitroaromatic compounds, Analytical Chemistry 81,7552 (2009)

3230. Juluri, BK; Lu, MQ; Zheng, YB; Huang, TJ; Jensen, L, Couplingbetween Molecular and Plasmonic Resonances: E�ect ofMolecular Absorbance, J. Phys. Chem C 113, 18499 (2009)

3229. Rodriguez-Fernandez, J; Novo, C; Myroshnychenko, V; Funs-ton, AM; Sanchez-Iglesias, A; Pastoriza-Santos, I; Perez-Juste, J; de Abajo, FJG; Liz-Marzan, LM; Mulvaney, P Spec-troscopy, Imaging, and Modeling of Individual Gold Deca-hedra, J. Phys. Chem C 113, 18623 (2009)

3228. Zhu, S., Huang, J., Tang, S., Meng, X, Synthesis of Ag micro-particles with hierarchical nanostructure on the anode ofa galvanic cell, Materials Chemistry and Physics 118, 442(2009)

3227. Kawamura, G; Nogami, M, Application of a conproportiona-tion reaction to a synthesis of shape-controlled gold nano-particles, J. Crystal Growth 311, 4462 (2009)

3226. Ze, X.S., Kasim, J., You, Y.M., Du, C.L., A novel near-�eld Ra-man and white light imaging system for nano photonic andplasmonic studies, Materials Research Society SymposiumProceedings 1077, 19 (2008)

3225. Neretina, S; Dreaden, EC; Qian, W; El-Sayed, MA; Hughes,RA; Preston, JS; Mascher, P, The Dependence of the Plas-mon Field Induced Nonradiative Electronic Relaxation Me-chanisms on the Gold Shell Thickness in Vertically AlignedCdTe-Au Core-Shell Nanorods, Nano Letters 9, 3772 (2009)

3224. Wurtz, G A, Pollard, R J, Zayatz A V, Optics of Metallic Nanos-tructures, in Handbook of Nanoscale Optics and Electronics,G Wiederrecht (Editor), Academic Press (December 21, 2009)

3223. Ros, I., Schiavuta, P., Mattei, G., Bozio, R. Saturable absor-ption of femtosecond laser pulses at surface plasmon re-sonance in gold nanoshells, Proceedings of SPIE - The In-ternational Society for Optical Engineering 7394, art. no.739412 (2009)

3222. F. Bisio, M. Palombo, M. Prato, O. Cavalleri, E. Barborini, S.Vinati, M. Franchi, L. Mattera, and M. Canepa, Optical pro-perties of cluster-assembled nanoporous gold �lms, Phys.Rev. B 80, 205428 (2009)

3221. Khlebtsov, NG; Dykman, LA, Optical properties and biomedi-cal applications of plasmonic nanoparticles, J. QuantitativeSpectroscopy & Radiative Transfer 111, 1-35 (2010)

3220. Qi, H., Alexson, D.A., Glembocki, O., Prokes, S.M. Formationof dielectric core/metal sheath nanowire composites andtheir application to SERS sensing, roceedings of SPIE - TheInternational Society for Optical Engineering 7406, art. no.74060X (2009)

3219. Jessica, R.-F., Novo, C., Myroshnychenko, V., Funston, A.M.,Ana, S.-I., Isabel, P.-S., Jorge, P.-J., (...), Mulvaney, P. Spectros-copy, imaging, and modeling of individual gold decahedra,J Phys Chem C 113, 18623 (2009)

3218. Z R Guo, C R Gu, X Fan, Z P Bian, H F Wu, D Yang, N Guand J N Zhang, Fabrication of Anti-human Cardiac Tropo-nin I Immunogold Nanorods for Sensing Acute MyocardialDamage, Nanoscale Research Letters 4, 1931 (2009)

3217. Kuznetsov, AI; Evlyukhin, AB; Reinhardt, C; Seidel, A; Ki-yan, R; Cheng, W; Ovsianikov, A; Chichkov, BN Laser-inducedtransfer of metallic nanodroplets for plasmonics and meta-material applications, J. Optical Soc. Am. B-Optical Physics26, B130 (2009)

3216. Al-Qadi, B; Saiki, T Optical characterization for nearly sp-herical gold colloidals via their polarization response, J. Na-nophotonics 3, 039503 (2009)

3215. Trinh, L.T.T., Volden, S., Kjoniksen, A.-L., Zhu, K., Knudsen,K.D., Glomm, W.R., Nystrom, B, Temperature-induced ad-sorption and optical properties of an amphiphilic diblockcopolymer adsorbed onto �at and curved silver surfaces,J. Colloid and Interface Science 342, 142 (2010)

3214. Y W Lee, M Kim, Z H Kim, S W Han, One-Step Synthesis ofAu at Pd Core-Shell Nanooctahedron, J. Am. Chem. Soc. 131,17036 (2009)

3213. Seyed-Razavi, A; Snook, IK; Barnard, AS, Origin of nano-morphology: does a complete theory of nanoparticle evo-lution exist? J. of Materials Chem. 20, 416 (2010)


3212. Kim, K., Ryoo, H., Lee, Y.M., Shin, K.S. Adsorption charac-teristics of Au nanoparticles onto poly(4-vinylpyridine) sur-face revealed by QCM, AFM, UV/vis, and Raman scatteri-ng spectroscopy, J. Colloid and Interface Science 342, 479(2010)

3211. Al-Qadi, B., Yamaoka, A., Saiki, T. Experimental obser-vation of polarization anisotropy for nearly sphericalgold nanoparticles, Conference Proceedings - Lasers andElectro-Optics Society Annual Meeting-LEOS, Article num-ber 5343342, Pages 769 (2009)

3210. SC Yang, H Kobori, CL He, MH Lin, HY Chen, C Li, M Kanehara,T Teranishi, S Gwo, Plasmon Hybridization in Individual GoldNanocrystal Dimers: Direct Observation of Bright and DarkModes Nano Lett. 10, 632 (2010)

3209. Li Shang, Lihua Jin, Shaojun Guo, Junfeng Zhai and Shao-jun Dong, A Facile and Controllable Strategy to SynthesizeAu-Ag Alloy Nanoparticles within Polyelectrolyte MultilayerNanoreactors upon Thermal Reduction, Langmuir 26, 6713(2010)

3208. A Mayoral, A Vazquez-Duran, D Ferrer, JM Montejano-Carrizales, M Jose-Yacaman, On the structure of stellatedsingle crystal Au/Ag nanoparticles, Cryst Eng Comm, 12 (4):1090-1095 2010

3207. Ergun Simsek, Full Analytical Model for Obtaining SurfacePlasmon Resonance Modes of Metal Nanoparticle StructuresEmbedded in Layered Media, Opt. Express 18, 1722 (2010)

3206. R Kydd, J Scott, W Y Teoh, K Chiang, R Amal, UnderstandingPhotocatalytic Metallization of Preadsorbed Ionic Gold onTitania, Ceria, and Zirconia, Langmuir 26, 2099 (2010)

3205. Shen, ZX; Kasim, J; You, YM; Du, CL, A Novel Near-Field Ra-man and White Light Imaging System for Nano Photonicand Plasmonic Studies, MATERIALS FOR NANOPHOTONICS- PLASMONICS, METAMATERIALS AND LIGHT LOCALIZATION1182: 167-175 2009

3204. Preclikova, J; Galar, P; Zidek, K; Trojanek, F; Maly, P, Multi-colour Photochromic Response of Ag-TiO2 Nanocomposite-Role of Light Illumination, J. NANOSCIENCE AND NANOTECH-NOLOGY 10 (4): 2630-2634 APR 2010

3203. Garcıa De Abajo, F.J. Optical excitations in electron micros-copy, Reviews of Modern Physics 82, 209 (2010)

3202. Li, ZB; Zhou, WY; Kong, XT; Tian, JG Polarization dependen-ce and independence of near-�eld enhancement througha subwavelength circle hole, OPTICS EXPRESS 18 (6): 5854-5860 MAR 15 2010

3201. Wu, S; Shen, J; Huang, JT; Wu, YP; Zhang, ZS; Hu, YL;Wu, WX; Huang, WH; Wang, KY; Zhang, QJ Ag nanoparti-cle/azopolymer nanocomposites: In situ synthesis, micros-tructure, rewritable optically induced birefringence and op-tical recording, POLYMER 51 (6): 1395-1403 MAR 11 2010

3200. Slaughter, LS; Chang, WS; Swanglap, P; Tcherniak, A; Kha-nal, BP; Zubarev, ER; Link, S, Single-Particle Spectroscopy ofGold Nanorods beyond the Quasi-Static Limit: Varying theWidth at Constant Aspect Ratio, J. PHYSICAL CHEMISTRY C114 (11): 4934-4938 MAR 25 2010

3199. Amendola, V; Bakr, OM; Stellacci, F A Study of the SurfacePlasmon Resonance of Silver Nanoparticles by the DiscreteDipole Approximation Method: E�ect of Shape, Size, Struc-ture, and Assembly, PLASMONICS 5 (1): 85 (2010)

3198. Simsek, E E�ective Refractive Index Approximation andSurface Plasmon Resonance Modes of Metal NanoparticleChains and Arrays, PIERS 2009 MOSCOW VOLS I AND II,PROCEEDINGS : 1574-1577 2009

3197. Wronkowska, AA; Wronkowski, A; Kuklinski, K; Senski, M;Skowronski, L Spectroscopic ellipsometry study of the die-lectric response of Au-In and Ag-Sn thin-�lm couples, AP-PLIED SURFACE SCIENCE 256 (15): 4839-4844 MAY 15 2010

3196. Aherne, D., Gara, M., Kelly, J.M., Gun’Ko, Y.K. From ag nano-prisms to triangular auag nanoboxes, Advanced FunctionalMaterials 20 (8), pp. 1329-1338 (2010)

3195. Grant, J., Shi, X., Alton, J., Cumming, D.R.S. Terahertz surfa-ce plasmon resonance of periodic silicon micro-dot arrays,IEEE Photonics Society Winter Topicals Meeting Series, WTM2010 , art. no. 5421978, pp. 34-35 (2010)

3194. Luszczyn, J., Plonska-Brzezinska, M.E., Palkar, A., Dubis, A.T.,Simionescu, A., Simionescu, D.T., Kalska-Szostko, B., Win-kler, K,, Echegoyen, L. Small noncytotoxic carbon nano-onions: First covalent functionalization with biomolecules,Chemistry - A European Journal 16 (16), pp. 4870-4880(2010)

3193. Preclikova, J., Trojanek, F., Nemec, P., Maly, P., Multicolourphotochromic behaviour of silver nanoparticles in titaniumdioxide matrix, Physica Status Solidi (C) Current Topics inSolid State Physics 5 (11), pp. 3496-3498 (2010)

3192. Al-Qadi, B., Saiki, T. Gold colloidals optical characterizationby observing their scattering polarization 2010 Progress inBiomedical Optics and Imaging - Proceedings of SPIE PLAS-MONICS IN BIOLOGY AND MEDICINE VII 7577, art. no. 75770V

3191. Sau, T.K., Rogach, A.L., Jackel, F., Klar, T.A., Feldmann, J.Properties and applications of colloidal nonspherical noblemetal nanoparticles, 2010 Advanced Materials 22 (16), pp.1805-1825


3190. Borensztein Y, Delannoy L, Djedidi A, et al. Monitoring ofthe Plasmon Resonance of Gold Nanoparticles in Au/TiO2Catalyst under Oxidative and Reducing Atmospheres, J. PHY-SICAL CHEMISTRY C 114, 9008 (2010).

3189. Chen, S.-Y., Lazarides, A.A. Manipulation of near �eld pola-rization by far �eld excitation, 2010 Proceedings of SPIE -The International Society for Optical Engineering 7604, art.no. 76041B

3188. Kumar, P; Krishna, MG, A comparative study of laser- andelectric-�eld-induced e�ects on the crystallinity, surfacemorphology and plasmon resonance of indium and goldthin �lms, PHYSICA STATUS SOLIDI A-APPLICATIONS AND MA-TERIALS SCIENCE 207 (4): 947-954 Sp. Iss. SI APR 2010

3187. Ruda, HE; Shik, A Nanorod dynamics in ac electric �elds,NANOTECHNOLOGY 21 (23): Art. No. 235502 JUN 11 2010

3186. Hu, C; Chen, X; Feng, Q; Luo, X Double negative in �exuralsingle metal layer at visible frequencies, APPLIED PHYSICSB-LASERS AND OPTICS 99 (3): 499-502 MAY 2010

3185. S. M. Hashemi Rafsanjani, T. Cheng, S. Mittler, and C. Ran-gan, Theoretical proposal for a biosensing approach basedon a linear array of immobilized gold nanoparticles, J. Appl.Phys. 107, 094303 (2010)

3184. Du, CL; You, YM; Johnson, K; Hu, HL; Zhang, XJ; Shen, ZXNear-�eld Coupling E�ect between Individual Au Nanosp-heres and their Supporting SiO2/Si Substrate, PLASMONICS5 (2): 105-109 JUN 2010

3183. Dolgov, L., Kiisk, V., Reedo, V., Maaroos, A., Sildos, I., Kikas,J. Sol-gel derived metal oxides doped with silver nanopar-ticles as tunable plasmonic materials, 2010 Physica StatusSolidi (A) Applications and Materials 207 (5), pp. 1166-1169

3182. Hu, R; Yong, KT; Ding, H; Prasad, PN; He, SL Tunable multico-lored hybrid metallic nanoparticles for live human cancercell imaging, J. NANOPHOTONICS 4: Art. No. 041545 FEB 232010

3181. Khlebtsov, NG Anisotropic properties of plasmonic nanopar-ticles: depolarized light scattering, dichroism, and birefrin-gence, J. NANOPHOTONICS 4: Art. No. 041587 MAR 4 2010

3180. Yurkin, MA; de Kanter, D; Hoekstra, AG Accuracy of the dis-crete dipole approximation for simulation of optical proper-ties of gold nanoparticles, J. NANOPHOTONICS 4: Art. No.041585 FEB 5 2010

3179. Chen, HA; Lin, HY; Lin, HN Localized Surface Plasmon Reso-nance in Lithographically Fabricated Single Gold Nanowires,J. PHYSICAL CHEMISTRY C 114 (23): 10359-10364 JUN 17 2010

3178. Portales, H; Goubet, N; Saviot, L; Yang, P; Sirotkin, S; Duval,E; Mermet, A; Pileni, MP Crystallinity Dependence of thePlasmon Resonant Raman Scattering by Anisotropic GoldNanocrystals, ACS NANO 4 (6): 3489-3497 JUN 2010

3177. C Wang, J Gu, J Han, Q Xing, Z Tian, F Liu, L Chai, Y Li,M Hu, Q Wang, X Lu, W Zhang Role of mode coupling ontransmission properties of subwavelength composite hole-patch structures, Appl. Phys. Lett. 96, 251102 (2010)

3176. Cade, N., Ritman-Meer, T., Richards, D. Hybridized exciton-plasmon polaritons in nanostructured silver �lms, 2010 Pro-ceedings of SPIE - The International Society for Optical En-gineering NANOPHOTONICS III 7712, art. no. 77120C

3175. Wang R, Wang J, Hao FH, Tian QA White-light total inter-nal re�ection microscopy for characterizing the optical pro-perties of Ag-coated optical �ber tips, APPLIED OPTICS 49,3905 (2010)

3174. Jain B, Srivastava AK, Uppal A, Gupta PK, Das K NIR Fem-tosecond Laser Induced Hyper-Rayleigh Scattering and Lu-minescence from Silver Nanoprisms J. NANOSCIENCE ANDNANOTECHNOLOGY 10, 5826 (2010)

3173. Letnes, PA; Simonsen, I Spectrally dependent locations ofhot-spots in nanoparticle clusters, PHYSICA STATUS SOLI-DI B-BASIC SOLID STATE PHYSICS 247 (8): 2084-2088 AUG2010

3172. Gu, Y; Li, J; Martin, OJF; Gong, QH Solving surface plas-mon resonances and near �eld in metallic nanostructures:Green’s matrix method and its applications, CHINESE SCIEN-CE BULLETIN 55 (24): 2608-2617 AUG 2010

3171. Beyene, HT; Tichelaar, FD; Peeters, P; Kolev, I; van de San-den, MCM; Creatore, M Hybrid Sputtering-Remote PECVDDeposition of Au Nanoparticles on SiO2 Layers for SurfacePlasmon Resonance-Based Colored Coatings, PLASMA PRO-CESSES AND POLYMERS 7 (8): 657-664 AUG 23 2010

3170. Zhu, JA; Li, JJ; Zhao, JW Focusing Local Electric Field Insi-de and Outside Gold Nanotube by Choosing the IncidentFrequency, J. COMPUTATIONAL AND THEORETICAL NANOS-CIENCE 7 (11): 2291-2296 NOV 2010

3169. Mondal, B; Saha, SK Fabrication of SERS substrate usingnanoporous anodic alumina template decorated by silvernanoparticles, CHEMICAL PHYSICS LETTERS 497 (1-3): 89-93 SEP 10 2010

3168. Kolwas, K; Derkachova, A Plasmonic abilities of gold and sil-ver spherical nanoantennas in terms of size dependent mul-tipolar resonance frequencies and plasmon damping rates,OPTO-ELECTRONICS REVIEW 18 (4): 429-437 DEC 2010


3167. Niesen, B; Rand, BP; Van Dorpe, P; Shen, HH; Maes, B; Ge-noe, J; Heremans, P, Excitation of multiple dipole surfaceplasmon resonances in spherical silver nanoparticles, OP-TICS EXPRESS 18 (18): 19032-19038 AUG 30 2010

3166. Barbosa, S; Agrawal, A; Rodriguez-Lorenzo, L; Pastoriza-Santos, I; Alvarez-Puebla, RA; Kornowski, A; Weller, H; Liz-Marzan, LM, Tuning Size and Sensing Properties in Colloi-dal Gold Nanostars, LANGMUIR 26 (18): 14943-14950 SEP 212010

3165. Wang, BB; Dong, B; Li, B; Zhao, B; Li, CY, Janus gold nano-particle with bicompartment polymer brushes templated bypolymer single crystals, POLYMER 51 (21): 4814-4822 OCT 12010

3164. Ajit Sadana, Neeti Sadana Nanobiosensors, Handbook ofBiosensors and Biosensor Kinetics, 2011, Pages 95-128

3163. Ros, I; Schiavuta, P; Bello, V; Mattei, G; Bozio, R Femtosecondnonlinear absorption of gold nanoshells at surface plasmonresonance, PHYSICAL CHEMISTRY CHEMICAL PHYSICS 12 (41):13692-13698 2010

3162. Zopes, D., Von Hagen, R., Muller, R., Fiz, R., Mathur, S.Ink-jetable patterning of metal-catalysts for regioselectivegrowth of nanowires, (2010) Nanoscale, 2 (10) pp. 2091-2095.

3161. Ruting, F., Uecker, H. Statistics for surface modes of nano-particles with shape �uctuations, (2010) Communications inComputational Physics, 8 (5) pp. 1224-1241.

3160. Abidi, W; Selvakannan, PR; Guillet, Y; Lampre, I; Beaunier, P;Pansu, B; Palpant, B; Remita, H One-Pot Radiolytic Synthesisof Gold Nanorods and Their Optical Properties, J. PHYSICALCHEMISTRY C 114 (35): 14794-14803 SEP 9 2010

3159. Ruting, F; Uecker, H Statistics for Surface Modes of Na-noparticles with Shape Fluctuations, COMMUNICATIONS INCOMPUTATIONAL PHYSICS 8 (5): 1224-1241 NOV 2010

3158. Cabrera-Trujillo, JM; Montejano-Carrizales, JM; Rodriguez-Lopez, JL; Zhang, W; Velazquez-Salazar, JJ; Jose-Yacaman,M Nucleation and Growth of Stellated Gold Clusters: Expe-rimental Synthesis and Theoretical Study, J. PHYSICAL CHE-MISTRY C 114 (49): 21051-21060 DEC 16 2010

3157. Chen, SY; Lazarides, AA Manipulation of near �eld polari-zation by far �eld excitation, INTEGRATED OPTICS: DEVICES,MATERIALS, AND TECHNOLOGIES XIV 7604: Art. No. 76041B2010

3156. Rincon, L., Gonzalez, C.A. Extended Huckel tight-binding cal-culations of electronic resonances in linear chains of goldatoms and clusters, (2010) J. Physical Chemistry C, 114 (48)pp. 20734-20740.

3155. Bhatt, I., Tripathi, B.N. Interaction of engineered nanoparti-cles with various components of the environment and possi-ble strategies for their risk assessment, (2011) Chemosphere,82 (3) pp. 308-317.

3154. Guan, ZP; Polavarapu, L; Xu, QH Enhanced Two-PhotonEmission in Coupled Metal Nanoparticles Induced by Con-jugated Polymers, LANGMUIR 26 (23): 18020-18023 DEC 72010

3153. Castro-Longoria, E., Vilchis-Nestor, A.R., Avalos-Borja, M.Biosynthesis of silver, gold and bimetallic nanoparticlesusing the �lamentous fungus Neurospora crassa, (2011) Co-lloids and Surfaces B: Biointerfaces, 83 (1) pp. 42-48.

3152. Lee, J.Y., Lee, J., Jang, Y.J., Lee, J., Jang, Y.H., Kochuveedu,S.T., Lee, S.S., Kim, D.H. Plasmonic nano-necklace arrays viareconstruction of diblock copolymer inverse micelle nano-templates, (2011) So� Matter, 7 (1) pp. 57-60.

3151. Karmakar, B; Som, T; Singh, SP; Nath, M Nanometal-GlassHybrid Nanocomposites: Synthesis, Properties and Applica-tions, TRANSACTIONS OF THE INDIAN CERAMIC SOCIETY 69(3): 171-186 Sp. Iss. SI JUL-SEP 2010

3150. Pamies, R; Zhu, KZ; Volden, S; Kjoniksen, AL; Karlsson, G;Glomm, WR; Nystrom, B Temperature-Induced Flocculationof Gold Particles with an Adsorbed Thermoresponsive Ca-tionic Copolymer, J. PHYSICAL CHEMISTRY C 114 (50): 21960-21968 DEC 23 2010

3149. Zopes, D., Kremer, S., Scherer, H., Belkoura, L., Pan-tenburg, I., Tyrra, W., Mathur, S. Hydrolytic decomposi-tion of tetramethylammonium bis(tri�uoromethyl) aurate(I),[NMe4][Au(CF3)2]: A route for the synthesis of gold nano-particles in aqueous medium, (2011) European J. InorganicChemistry, (2) pp. 273-280.

3148. Chen, J.-J., Wu, J.C.S., Wu, P.C., Tsai, D.P. Plasmonic photo-catalyst for H2 evolution in photocatalytic water splitting,(2011) J. Physical Chemistry C, 115 (1) pp. 210-216.

3147. W Jacak , J Krasnyj , J Jacak , W Donderowicz and L JacakMechanism of plasmon-mediated enhancement of photo-voltaic e�ciency, 2011 J. Phys. D: Appl. Phys. 44 05530

3146. X Wen , M Yi , D Zhang , P Wang , Y Lu and H Ming Tunableplasmonic coupling between silver nano-cubes and silvernano-hole arrays, 2011 Nanotechnology 22 085203

3145. Al-Qadi, B; Saiki, T, Optical Characterization and RotationalDynamics Observation of Colloidal Gold Nanorods Basedon Polarized Light Scattering Microscopy, JAPANESE J. AP-PLIED PHYSICS 49 (12): Art. No. 125001 2010

3144. Peng, H.-I., Miller, B.L. Recent advancements in optical DNAbiosensors: Exploiting the plasmonic e�ects of metal nano-particles, (2011) Analyst, 136 (3) pp. 436-447.


3143. Song, Y., Zhang, Z., Elsayed-Ali, H.E., Wang, H., Henry, L.L.,Wang, Q., Zou, S., Zhang, T. Identi�cation of single nano-particles, (2011) Nanoscale, 3 (1) pp. 31-44.

3142. Khlebtsov, B.N., Khanadeev, V.A., Maksimova, I.L., Terentyuk,G.S., Khlebtsov, N.G. Silver nanocubes and gold nanocages:Fabrication and optical and photothermal properties, (2010)Nanotechnologies in Russia, 5 (7-8) pp. 454-468.

3141. Kennedy, L.C., Bickford, L.R., Lewinski, N.A., Coughlin, A.J.,Hu, Y., Day, E.S., West, J.L., Drezek, R.A. A new era for cancertreatment: Gold-nanoparticle-mediated thermal therapies,(2011) Small, 7 (2) pp. 169-183.

3140. G Kyas, V May, Density matrix based microscopic theoryof molecule metal–nanoparticle interactions: Linear absor-bance and plasmon enhancement of intermolecular excita-tion energy transfer, J. Chem. Phys. 134, 034701 (2011)

3139. Bahadur, N M; Furusawa, T; Sato, M; Kurayama, F; Siddi-quey, I A; Suzuki, N; Fast and facile synthesis of silica coatedsilver nanoparticles by microwave irradiation, J. Colloid andInterface Science, 355 (2), p.312, Mar 2011

3138. Qin, YQ; Ji, XH; Jing, J; Liu, H; Wu, HL; Yang, WS Size controlover spherical silver nanoparticles by ascorbic acid reduc-tion, COLLOIDS AND SURFACES A-PHYSICOCHEMICAL ANDENGINEERING ASPECTS 372 (1-3): 172-176 DEC 3 2010

3137. Lee, J.Y., Lee, J., Jang, Y.J., Lee, J., Jang, Y.H., Kochuveedu,S.T., Park, C., Kim, D.H. Controlling the composition of plas-monic nanoparticle arrays via galvanic displacement reac-tions on block copolymer nanotemplates, (2011) ChemicalCommunications, 47 (6) pp. 1782-1784.

3136. Kyas G, May V Density matrix based microscopic theory ofmolecule metal-nanoparticle interactions: Linear absorban-ce and plasmon enhancement of intermolecular excitationenergy transfer, J. CHEMICAL PHYSICS 134, 034701 2011

3135. X Shao, A Agarwal, J R Rajian , N A Kotov, X Wang, Synthe-sis and bioevaluation of I-125-labeled gold nanorods, 2011Nanotechnology 22 135102

3134. J. Grant, X. Shi, J. Alton, and D. R. S. Cumming Terahertz lo-calized surface plasmon resonance of periodic silicon mi-croring arrays, J. Appl. Phys. 109, 054903 (2011)

3133. Letnes, PA; Simonsen, I; Mills, DL, Substrate in�uence on theplasmonic response of clusters of spherical nanoparticles,PHYSICAL REVIEW B 83 (7): Art. No. 075426 FEB 23 2011

3132. Chaikin, Y; Leader, H; Popovitz-Biro, R; Vaskevich, A; Rubins-tein, I, Versatile Scheme for the Step-by-Step Assembly ofNanoparticle Multilayers, LANGMUIR 27 (4): 1298-1307 FEB15 2011

3131. Rincon, L; Gonzalez, CA Extended Huckel Tight-Binding Cal-culations of Electronic Resonances in Linear Chains of GoldAtoms and Clusters, J. PHYSICAL CHEMISTRY C 114 (48):20734-20740 DEC 9 2010

3130. Lecarme, O; Pinedo-Rivera, T; Berton, K; Berthier, J; Peyrade,D Plasmonic coupling in nondipolar gold colloidal dimers,APPLIED PHYSICS LETTERS 98 (8): Art. No. 083122 FEB 212011

3129. Ahamad, N; Ianoul, A Using Phospholipids To Control In-terparticle Distance in SERS-Active Substrates, J. PHYSICALCHEMISTRY C 115 (9): 3587-3594 MAR 10 2011

3128. Fitzgerald, TM; Marciniak, MA; Nauyoks, SE Developmentof a tunable polarimetric scatterometry system in theMWIR and LWIR, REFLECTION, SCATTERING, AND DIFFRAC-TION FROM SURFACES II 7792: Art. No. 779209 2010

3127. Meyer, SA; Le Ru, EC; Etchegoin, PG Combining Surface Plas-mon Resonance (SPR) Spectroscopy with Surface-EnhancedRaman Scattering (SERS), ANALYTICAL CHEMISTRY 83 (6):2337-2344 MAR 15 2011

3126. Grant, J; Alton, J; Ma, Y; Saha, S; Cumming, DRS Multiple THzSurface Plasmon Resonances of Periodic Split Ring Arraysin Silicon, 35TH INTERNATIONAL CONFERENCE ON INFRARED,MILLIMETER, AND TERAHERTZ WAVES (IRMMW-THZ 2010) : -2010

3125. T M. Fitzgerald, M A. Marciniak Full Optical Scatter Analysisfor Novel Photonic and Infrared Metamaterials, Conferen-ce Proceedings of the Society for Experimental MechanicsSeries, 1, Volume 2, MEMS and Nanotechnology, Volume 2,Pages 97-105

3124. J Jiang, L Zhang Rapid Microwave-Assisted NonaqueousSynthesis and Growth Mechanism of AgCl/Ag, and ItsDaylight-Driven Plasmonic Photocatalysis, CHEMISTRY - AEUROPEAN JOURNAL 17, 3710–3717 2011

3123. Sekhon, JS; Verma, SS Optimal Dimensions of Gold Nanorodfor Plasmonic Nanosensors, PLASMONICS 6 (1): 163-169 MAR2011

3122. Alessio P, Constantino CJL, Aroca RF, Oliveira ON SURFACE-ENHANCED RAMAN SCATTERING: METAL NANOSTRUCTURESCOATED WITH LANGMUIR-BLODGETT FILMS, J. THE CHILEANCHEMICAL SOCIETY 55, 469–478, 2010

3121. Khan, SA; Avasthi, DK; Agarwal, DC; Singh, UB; Kabiraj, DQuasi-aligned gold nanodots on a nanorippled silica sur-face: experimental and atomistic simulation investigations,NANOTECHNOLOGY 22 (23): Art. No. 235305 JUN 10 2011

3120. Romo-Herrera, JM; Alvarez-Puebla, RA; Liz-Marzan, LM Con-trolled assembly of plasmonic colloidal nanoparticle clus-ters NANOSCALE 3 (4): 1304-1315 2011


3119. Abidi, W., Remita, H Gold based nanoparticles generated byradiolytic and photolytic methods, 2010 Recent Patents onEngineering 4 (3), pp. 170-188

3118. Krahne, R., Morello, G., Figuerola, A., George, C., Deka, S.,Manna, L. Physical properties of elongated inorganic nano-particles, 2011 Physics Reports 501 (3-5), pp. 75-221

3117. Ahsan, Md.S., Kim, Y.G., Lee, M.S. Colorizing of the stainlesssteel surface by single-beam direct femtosecond laser wri-ting, 2011 Proceedings of SPIE - The International Societyfor Optical Engineering 7925, art. no. 792512

3116. Wang, LX; May, V Laser pulse induced transient currentsthrough a single molecule, PHYSICAL CHEMISTRY CHEMICALPHYSICS 13 (19): 8755-8768 2011

3115. Si, G., Shi, W., Li, K., Ma, Z. Synthesis of PSS-capped trian-gular silver nanoplates with tunable SPR, 2011 Colloids andSurfaces A: Physicochemical and Engineering Aspects 380(1-3), pp. 257-260

3114. Chae, W.-S., Lee, H.-O., Kim, E.-M., Yu, H. Molecular sensinge�ciency of gold-silver alloy nanowires, 2011 Bulletin of theKorean Chemical Society 32 (4), pp. 1346-1348

3113. Tuchina, ES; Tuchin, VV; Khlebtsov, BN; Khlebtsov, NG Photo-toxic e�ect of conjugates of plasmon-resonance nanoparti-cles with indocyanine green dye on Staphylococcus aureusinduced by IR laser radiation, QUANTUM ELECTRONICS 41(4): 354-359 2011

3112. Beyene, HT; Tichelaar, FD; Verheijen, MA; van de Sanden,MCM; Creatore, M Plasma-Assisted Deposition of Au/SiO2Multi-layers as Surface Plasmon Resonance-Based Red-Colored Coatings, PLASMONICS 6 (2): 255-260 JUN 2011

3111. Sekhon, JS; Verma, SS Refractive Index Sensitivity Analysisof Ag, Au, and Cu Nanoparticles, PLASMONICS 6 (2): 311-317JUN 2011

3110. Charles, DE; Gara, M; Aherne, D; Ledwith, DM; Kelly, JM;Blau, WJ; Brennan-Fournet, ME Scaling of Surface PlasmonResonances in Triangular Silver Nanoplate Sols for Enhan-ced Refractive Index Sensing, PLASMONICS 6 (2): 351-362JUN 2011

3109. Zhang, Y., Yu, J., Birch, D.J.S., Chen, Y. Gold nanorods forapplications in biological imaging, 2011 Progress in Biome-dical Optics and Imaging - Proceedings of SPIE 7910, art.no. 79101H

3108. Tsutsui, Y; Hayakawa, T; Kawamura, G; Nogami, M Tunedlongitudinal surface plasmon resonance and third-ordernonlinear optical properties of gold nanorods, NANOTECH-NOLOGY 22 (27): Art. No. 275203 JUL 8 2011

3107. Kooij, ES; Ahmed, W; Zandvliet, HJW; Poelsema, B LocalizedPlasmons in Noble Metal Nanospheroids, J. PHYSICAL CHE-MISTRY C 115 (21): 10321-10332 JUN 2 2011

3106. Brenier, R Bifunctional Surfaces with Superhydrophobic andPlasmonic Properties, J. PHYSICAL CHEMISTRY C 115 (21):10544-10549 JUN 2 2011

3105. Ahsan, M.S., Ahmed, F., Kim, Y.G., Lee, M.S., Jun, M.B.G.Colorizing stainless steel surface by femtosecond laser in-duced micro/nano-structures, 2011 Applied Surface Science257 (17), pp. 7771-7777

3104. Liu, Q., He, X., Zhou, X., Ren, F., Xiao, X., Jiang, C., Zhou, H.,Zhao, X.a , Lu, L., Qian, S. Third-order nonlinearity in Ag-nanoparticles embedded 56GeS 2-24Ga2S3-20KBr chal-cohalide glasses, 2011 J. Non-Crystalline Solids 357 (11-13),pp. 2320-2323

3103. Zhao, W., Zhao, X.-P. Relationship of surface plasmon po-laritons and nanoparticles morphology, 2011 Guangzi Xue-bao/Acta Photonica Sinica 40 (4), pp. 556-560

3102. Han, RY; Zhang, XT; Wang, LL; Dai, R; Liu, YC Size-dependentphotochromism-based holographic storage of Ag/TiO2 na-nocomposite �lm, APPLIED PHYSICS LETTERS 98 (22): Art.No. 221905 MAY 30 2011

3101. Li, S.-K., Zhang, L., Huang, F.-Z., Yu, X.-R., Xie, A.-J., Shen,Y.-H., Wang, Y. AuCl4 - ions-assisted fabrication of bimeta-llic Poly(ethylenimine)-Ag/Au multilayer polyelectrolyte �lmand application in electrocatalysis, 2011 Thin Solid Films 519(16), pp. 5609-5615

3100. Alessio, P., Constantino, C.J.L., Aroca, R.F., Oliveira Jr., O.N.Surface-enhanced raman scattering: Metal nanostructurescoated with langmuir-blodgett �lms, 2010 J. the ChileanChemical Society 55 (4), pp. 469-478

3099. DAgostino S, Della Sala F Silver Nanourchins in Plasmonics:Theoretical Investigation on the Optical Properties of theBranches, J. PHYSICAL CHEMISTRY C 115 (24), pp. 11934-119402011

3098. Zheng, Z., Tang, S., Vongehr, S., Meng, X. Square-wave elec-trochemical growth of lying three-dimensional silver den-drites with high surface-enhanced Raman scattering acti-vities, 2011 Materials Chemistry and Physics 129 (1-2), pp.594-598

3097. Hartland, G.V. Optical studies of dynamics in noble metalnanostructures 2011 Chemical Reviews 111 (6), pp. 3858-3887

3096. Han, R., Zhang, X., Wang, L., Dai, R., Liu, Y. Size-dependentphotochromism-based holographic storage of Ag/ TiO 2 na-nocomposite �lm, 2011 Applied Physics Letters 98 (22), art.no. 221905


3095. Chen, HJ; Ming, T; Zhang, SR; Jin, Z; Yang, BC; Wang, JF E�ectof the Dielectric Properties of Substrates on the ScatteringPatterns of Gold Nanorods, ACS NANO 5 (6): 4865-4877 JUN2011

3094. Swanglap, P; Slaughter, LS; Chang, WS; Willingham, B; Kha-nal, BP; Zubarev, ER; Link, S Seeing Double: Coupling bet-ween Substrate Image Charges and Collective Plasmon Mo-des in Self-Assembled Nanoparticle Superstructures, ACSNANO 5 (6): 4892-4901 JUN 2011

3093. Zhang, Y., Yu, J., Ryderfors, L., Birch, D.J.S., Chen, Y. Fluo-rescence intensity and lifetime imaging of gold nanorods incells, 2011 5th International Conference on Bioinformaticsand Biomedical Engineering, iCBBE 2011 , art. no. 5780219

3092. Zhang, D., Liu, X., Wang, X. Monodispersed protein stabi-lized silver nanoprisms: Synthesis, optical properties andsurface-enhanced Raman scattering application, 2011 Ma-terials Science Forum 688, pp. 162-167

3091. Anghinol�, L; Moroni, R; Mattera, L; Canepa, M; Bisio, F Fle-xible Tuning of Shape and Arrangement of Au Nanoparti-cles in 2-Dimensional Self-Organized Arrays: Morphologyand Plasmonic Response, J. PHYSICAL CHEMISTRY C 115 (29):14036-14043 2011

3090. Borensztein, Y; Delannoy, L; Barrera, RG; Louis, C Kineticsof the plasmon optical response of Au nanoparticles/TiO(2)catalyst under O(2) and H(2) followed by di�erential di�usere�ectance spectroscopy, EUROPEAN PHYSICAL JOURNAL D63 (2): 235-240 2011

3089. Kansal, SK; Ali, AH; Kapoor, S; Bahnemann, DW Synthesis of�ower like zinc oxide nanostructure and its application asa photocatalyst, SEPARATION AND PURIFICATION TECHNO-LOGY 80 (1): 125-130 2011

3088. Mendoza-Galvan, A; Jarrendahl, K; Dmitriev, A; Pakizeh, T;Kall, M; Arwin, H Optical response of supported gold nano-disks, OPTICS EXPRESS 19 (13): 12093-12107 JUN 20 2011

3087. Sadeghi, SM Plasmonic Metaresonance Nanosensors: Ultra-sensitive Tunable Optical Sensors Based on NanoparticleMolecules, IEEE TRANSACTIONS ON NANOTECHNOLOGY 10(3): 566-571 2011

3086. Khunsin, W; Brian, B; Dorfmuller, J; Esslinger, M; Vogelge-sang, R; Etrich, C; Rockstuhl, C; Dmitriev, A; Kern, K Long-Distance Indirect Excitation of Nanoplasmonic Resonances,NANO LETTERS 11 (7): 2765-2769 2011

3085. Chau, YF; Jiang, ZH Plasmonics E�ects of Nanometal Embed-ded in a Dielectric Substrate, PLASMONICS 6 (3): 581-5892011

3084. Ortiz, N; Skrabalak, SE Controlling the Growth Kinetics ofNanocrystals via Galvanic Replacement: Synthesis of Au Te-trapods and Star-Shaped Decahedra, CRYSTAL GROWTH &DESIGN 11 (8): 3545-3550 10.1021/cg200484m AUG 2011

3083. Jiang, CF; Guan, ZP; Lim, SYR; Polavarapu, L; Xu, QH Two-photon ratiometric sensing of Hg(2+) by using cysteine fun-ctionalized Ag nanoparticles, NANOSCALE 3 (8): 3316-33202011

3082. Khan, ZA; Kumar, R; Mohammed, WS; Hornyak, GL; Dutta, JOptical thin �lm �lters of colloidal gold and silica nanopar-ticles prepared by a layer-by-layer self-assembly method,J. MATERIALS SCIENCE 46 (21): 6877-6882 2011

3081. Zhang, DH; Liu, XH; Wang, X Green synthesis of grapheneoxide sheets decorated by silver nanoprisms and their anti-bacterial properties, J. INORGANIC BIOCHEMISTRY 105 (9):1181-1186 2011

3080. Grigorchuk N I.; Tomchuk P M. Optical and transport pro-perties of spheroidal metal nanoparticles with account forthe surface e�ect, PHYSICAL REVIEW B 84, 085448 2011

3079. Ye, D., Mutisya, S., Bertino, M. Enhancement of electric �eldand Raman scattering by Ag coated Ni nanotips APPLIEDPHYSICS LETTERS 99, 081909 2011

3078. Alsawa�a, M., Wahbeh, M., Misra, S., Truong, V.-V. The e�ectof the target size on the optical response of ultra�ne metallicspherical particles arranged in a two-dimensional array,Proceedings of SPIE - The International Society for OpticalEngineering 8007, art. no. 80071H 2011

3077. Albella, P., Garcia-Cueto, B., Gonzalez, F., Moreno, F., Wu,P.C., Kim, T.-H., Brown, A., Yang, Y., Everitt, H.O., Videen,G. Shape matters: Plasmonic nanoparticle shape enhancesinteraction with dielectric substrate, Nano Letters 11 (9), pp.3531-3537 2011

3076. Albella, P; Saiz, JM; Gonzalez, F; Moreno, F Surface moni-toring based on light scattering by metal nanosensors, J.QUANTITATIVE SPECTROSCOPY & RADIATIVE TRANSFER 112(13): 2046-2058 SI 2011

3075. Shou, QH; Guo, C; Yang, LR; Jia, LW; Liu, CZ; Liu, HZ E�ectof pH on the single-step synthesis of gold nanoparticlesusing PEO-PPO-PEO triblock copolymers in aqueous media,J. COLLOID AND INTERFACE SCIENCE 363 (2): 481-489 2011

3074. Osorio-Roman, I O.; Ortega-Vasquez, V; Vargas, C V, Aroca,RF Surface-Enhanced Spectra on D-Gluconic Acid CoatedSilver Nanoparticles, APPLIED SPECTROSCOPY 65, 838-8432011


3073. Pandoli, O; Massi, A; Cavazzini, A, Spada, GP, Cui, DX Circu-lar dichroism and UV-Vis absorption spectroscopic monito-ring of production of chiral silver nanoparticles templatedby guanosine 5 ’-monophosphate, ANALYST 136, 3713-37192011

3072. Ocwieja, M., Adamczyk, Z., Morga, M., Michna, A. High den-sity silver nanoparticle monolayers produced by colloidself-assembly on polyelectrolyte supporting layers, J. Co-lloid and Interface Science 364 (1), pp. 39-48 2011

3071. Brahma, R; Reddy, GM; Lakshmi, PA; Singh, S; Krishna, MGControlled Nanostructuring of Ag Films by Ion Beam SputterDeposition for Surface Plasmon Resonance Applications, J.NANOSCIENCE AND NANOTECHNOLOGY 11 (8): 6843-68512011

3070. Asiala, SM; Schultz, ZD Characterization of hotspots in ahighly enhancing SERS substrate, ANALYST 136 (21): 4472-4479 2011

3069. David, C., Garcıa De Abajo, F.J. Spatial nonlocality in the op-tical response of metal nanoparticles, 2011 J. Physical Che-mistry C 115 (40), pp. 19470-19475

3068. Yan, C., Chen, Y., Jin, A., Wang, M., Kong, X., Zhang, X., Ju,Y., Han, L. Molecule oxygen-driven shaping of gold islandsunder thermal annealing, Applied Surface Science 258 (1),pp. 377-381 2011

3067. Dhoni, MS; Ji, W Extension of Discrete-Dipole ApproximationModel to Compute Nonlinear Absorption in Gold Nanostruc-tures, J. PHYSICAL CHEMISTRY C 115 (42): 20359-20366 2011

3066. Lazzari, R., Jupille, J. Quantitative analysis of nanoparticlegrowth through plasmonics, Nanotechnology 22 (44), art.no. 445703 2011

3065. Krenek, T; Fajgar, R; Medlin, R; Klementova, M; Novotny, F;Drinek, V Fabrication of Cu(x)Ge(y) Nanoplatelets, J. NANOS-CIENCE AND NANOTECHNOLOGY 11 (9): 8279-8283 (2011)

3064. Fischer, J; Vogel, N; Mohammadi, R; Butt, HJ; Landfester, K;Weiss, CK; Kreiter, M Plasmon hybridization and strong near-�eld enhancements in opposing nanocrescent dimers withtunable resonances, NANOSCALE 3 (11): 4788-4797 (2011)

3063. Estrada, L.C., Gratton, E. 3D nanometer images of biological�bers by directed motion of gold nanoparticles, 2011 NanoLetters 11 (11), pp. 4656-4660

3062. Pescaglini, A; Emanuele, U; O’Riordan, A; Iacopino, D Die-lectrophoretic Self-Assembly of Au Nanorods for SensingApplications, SENSORS & THEIR APPLICATIONS XVI 307 2011J. Physics: Conference Series Volume 307, Issue 1, 2011, Ar-ticle number 012051

3061. Kodali, A.K., Bhargava, R. E�ect of non-speci�city in sha-pe, size, and dielectric properties on electromagnetic extin-ction and optical �eld enhancement from spherical nanola-yered metal-dielectric particles, 2011 Theoretical ChemistryAccounts 130 (4-6), pp. 991-1000

3060. Dementeva, OV; Rudoy, VM Colloidal synthesis of newsilver-based nanostructures with tailored localized surfaceplasmon resonance, COLLOID JOURNAL, 73 (6):724-742; DEC2011

3059. Tesler, AB; Chuntonov, L; Karakouz, T; Bendikov, TA; Haran, G;Vaskevich, A; Rubinstein, I Tunable Localized Plasmon Trans-ducers Prepared by Thermal Dewetting of Percolated Evapo-rated Gold Films, J. PHYSICAL CHEMISTRY C, 115 (50):24642-24652 2011

3058. Yuan, L; Zhu, J; Ren, YJ; Bai, SW Sectional area-dependentplasmonic shi�ing in the truncated process of silver nano-particles: from cube to octahedron, J. NANOPARTICLE RE-SEARCH, 13 (12):6305-6312; 10.1007/s11051-011-0600-z DEC2011

3057. Tamayo-Rivera, L; Fernandez-Hernandez, RC; Rodriguez-Fernandez, L; Rangel-Rojo, R; Oliver, A; Reyes-Esqueda, JAWavelength-varying third-order nonlinear optical responseof Ag nanoparticles-Si quantum dots integrated plasmonicsystem, OPTICAL MATERIALS EXPRESS, 1 (5):980-989; SEP 12011

3056. Chuntonov, L; Bar-Sadan, M; Houben, L; Harant, G Corre-lating Electron Tomography and Plasmon Spectroscopy ofSingle Noble Metal Core-Shell Nanoparticles, NANO LET-TERS, 12 (1):145-150; 10.1021/nl204125d JAN 2012

3055. Kazuma, E; Tatsuma, T Photoinduced reversible changes inmorphology of plasmonic Ag nanorods on TiO(2) and ap-plication to versatile photochromism, CHEMICAL COMMUNI-CATIONS, 48 (12):1733-1735 (2012).

3054. Li, ZQ; Chen, S; Li, JJ; Liu, QQ; Sun, Z; Wang, ZB;Huang, SM Plasmon-enhanced upconversion �uorescencein NaYF(4):Yb/Er/Gd nanorods coated with Au nanoparticlesor nanoshells, J. APPLIED PHYSICS, 111 (1): 014310 2012

3053. Sekhon, JS; Verma, SS Tunable plasmonic properties of sil-ver nanorods for nanosensing applications, J. MATERIALSSCIENCE, 47 (4):1930-1937 (2012)

3052. Tiemblo, P; Benito, E; Garcia, N; Esteban-Cubillo, A; Pina-Zapardiel, R; Pecharroman, C Multiscale gold and silverplasmonic plastics by melt compounding, RSC ADVANCES,2 (3):915-919 (2012)

3051. Miyamoto, T; Saito, S; Isobe, T; Nakajima, A; Matsushita, SSix-rayed star-like nanostructures in prospective plasmonic


devices, CHEMICAL COMMUNICATIONS, 48 (11):1668-1670;10.1039/c2cc16353e 2012

3050. Tan, G., Onur, M.A., Saglam, N. Nano gold and biomedici-ne: Scienti�c letter — [Nano altidotlessn ve biyotidotlessp],Turkiye Klinikleri J. Medical Sciences 32 (2) , pp. 499-5062012

3049. Vanherck, K., Verbiest, T., Vankelecom, I. Comparison of twosynthesis routes to obtain gold nanoparticles in polyimide,J. Physical Chemistry C 116 (1) , pp. 115-125 2012

3048. Alsawa�a, M., Wahbeh, M., Truong, V.-V. Simulated opticalproperties of gold nanocubes and nanobars by discrete di-pole approximation, (2012) J. Nanomaterials, 2012, art. no.283230

3047. Kochuveedu, S.T., Kim, D.-P., Kim, D.H. Surface-plasmon-induced visible light photocatalytic activity of TiO2 nanosp-heres decorated by au nanoparticles with controlled con�-guration, (2012) J. Physical Chemistry C, 116 (3) pp. 2500-2506.

3046. Amendola, V., Meneghetti, M. Exploring how to increase thebrightness of surface-enhanced raman spectroscopy nano-labels: The e�ect of the raman-active molecules and of thelabel size, (2012) Advanced Functional Materials, 22 (2) pp.353-360.

3045. Haggui, M; Dridi, M; Plain, J; Marguet, S; Perez, H; Schatz, GC;Wiederrecht, GP; Gray, SK; Bachelot, R Spatial Con�nementof Electromagnetic Hot and Cold Spots in Gold Nanocubes,ACS NANO, 6 (2):1299-1307; 10.1021/nn2040389 FEB 2012

3044. Serpone, N., Emeline, A.V. Semiconductor photocatalysis -Past, present, and future outlook, J. Physical Chemistry Let-ters 3 (5) , pp. 673-677, 2012

3043. Chen, R., Li, D., Hu, H., Zhao, Y., Wang, Y., Wong, N., Wang, S.,Zhang, Y; Hu, J; Shen, ZX; Xiong, Q. Tailoring optical proper-ties of silicon nanowires by au nanostructure decorations:Enhanced Raman scattering and photodetection, J. PhysicalChemistry C 116 (7) , pp. 4416-4422, 2012

3042. Mota-Santiago, PE; Crespo-Sosa, A; Jimenez-Hernandez,JL; Sanchez-Dena, O; Fernandez-Hernandez, RC; Reyes-Esqueda, JA; Oliver, A Linear and non-linear optical pro-perties of metallic nanocrystals in sapphire, 22ND CON-GRESS OF THE INTERNATIONAL COMMISSION FOR OP-TICS: LIGHT FOR THE DEVELOPMENT OF THE WORLD, 801110.1117/12.903344 2011

3041. Cyrankiewicz, M; Kruszewski, S Study of optical and physi-cochemical properties of colloidal silver nanoparticles as ane�cient substrate for SERS, 15TH INTERNATIONAL SEMINARON PHYSICS AND CHEMISTRY OF SOLIDS, 289 10.1088/1742-6596/289/1/012016 2011

3040. Oo, T.Z., Mathews, N., Xing, G., Wu, B., Xing, B., Wong, L.H.,Sum, T.C., Mhaisalkar, S.G. Ultra�ne gold nanowire networksas plasmonic antennae in organic photovoltaics, (2012) J.Physical Chemistry C, 116 (10) pp. 6453-6458.

3039. Kubacka, A., Fernandez-Garcia, M., Colon, G. Advanced na-noarchitectures for solar photocatalytic applications, (2012)Chemical Reviews, 112 (3) pp. 1555-1614.

3038. Xia, Z.-R., Li, R.-Q. Fluorescence enhancement of CdTe na-nocystals induced by Ag/TiO 2 core-shell nanoparticles,(2012) Guangzi Xuebao/Acta Photonica Sinica, 41 (2) pp. 166-169.

3037. Cardoso-Avila, P.E., Pichardo-Molina, J.L., Upendra Kumar,K., Barbosa-Sabanero, G., Barbosa-Garcia, O. Gold nano-particles surface modi�cation using BSA and cysteine, (2011)Proceedings of SPIE - The International Society for OpticalEngineering, 8011, art. no. 801192

3036. Agarwala, S., Ho, G.W. Self-ordering anodized nanotubes:Enhancing the performance by surface plasmon for dye-sensitized solar cell, (2012) J. Solid State Chemistry, 189 pp.101-107.

3035. Ghosh Chaudhuri, R., Paria, S. Core/shell nanoparticles:Classes, properties, synthesis mechanisms, characteriza-tion, and applications, (2012) Chemical Reviews, 112 (4) pp.2373-2433.

3034. Evlyukhin, A.B., Kuznetsov, A.I., Novikov, S.M., Beermann,J., Reinhardt, C., Kiyan, R., Bozhevolnyi, S.I., Chichkov, B.N.Optical properties of spherical gold mesoparticles (2012)Applied Physics B: Lasers and Optics, 106 (4) pp. 841-848.

3033. Pan�lova, EV; Khlebtsov, BN; Burov, AM; Khlebtsov, NG Studyof Polyol Synthesis Reaction Parameters Controlling HighYield of Silver Nanocubes, Pan�lova, E. V.; Khlebtsov, B.N.; Burov, A. M.; Khlebtsov, N. G., Colloid J, 74 (1):99-109;10.1134/S1061933X11060147 FEB 2012

3032. Alsawa�a, M., Wahbeh, M., Truong, V.-V. Plasmonic modesand optical properties of gold and silver ellipsoidal nano-particles by the discrete dipole approximation, 2012 J. Na-nomaterials 2012 , art. no. 457968

3031. Qiu, LQ; Saravanamuttu, K Optical self-trapping in a photo-polymer doped with Ag nanoparticles: a single-step routeto metallodielectric cylindrical waveguides, J Opt Soc Am B,29 (5):1085-1093; MAY 1 2012

3030. Bae, G.-T., Aikens, C.M. Time-dependent density functionaltheory studies of optical properties of Ag nanoparticles: Oc-tahedra, truncated octahedra, and icosahedra, 2012 J. Phy-sical Chemistry C 116 (18) , pp. 10356-10367


3029. Liu, X.W., Lin, J., Jiang, T.F., Zhu, Z.F., Zhan, Q.Q., Qian, J., He,S. Surface plasmon properties of hollow AuAg alloyed trian-gular nanoboxes and its applications in SERS imaging andpotential drug delivery, 2012 Progress in ElectromagneticsResearch 128 , pp. 35-53

3028. Rai, VN; Srivastava, AK; Mukherjee, C; Deb, SK Surface en-hanced absorption and transmission from dye coated goldnanoparticles in thin �lms, APPLIED OPTICS, 51 (14):2606-2615; MAY 10 2012

3027. Reinhardt, C; Evlyukhin, AB; Cheng, W; Gaidukeviciute, A;Kuznetsov, AI; Zywietz, U; Chichkov, BN Optical sensing ele-ments based on ordered semiconductor and metal nano-particle arrays and surface plasmons, SMART SENSOR PHE-NOMENA, TECHNOLOGY, NETWORKS, AND SYSTEMS INTE-GRATION 2012, 8346 Proceedings of SPIE - The InternationalSociety for Optical Engineering

3026. Choi, H; Chen, WT; Kamat, PV Know Thy Nano Neighbor.Plasmonic versus Electron Charging E�ects of Metal Na-noparticles in Dye-Sensitized Solar Cells, ACS NANO, 6(5):4418-4427; 10.1021/nn301137r MAY 2012

3025. Nedyalkov, N.N., Atanasov, P.A., Toshkova, R.A., Gardeva,E.G., Yossifova, L.S., Alexandrov, M.T., Karashanova, D. La-ser heating of gold nanoparticles: Photothermal cancer celltherapy, 2012, Progress in Biomedical Optics and Imaging -Proceedings of SPIE 8427 , art. no. 84272P

3024. Mendelsberg, R.J., Garcia, G., Li, H., Manna, L., Milliron,D.J. Understanding the plasmon resonance in ensembles ofdegenerately doped semiconductor nanocrystals, 2012, J.Physical Chemistry C 116 (22) , pp. 12226-12231

3023. Chen, T.-H., Jean, R.-D., Chiu, K.-C., Chen, C.-H., Liu, D.-M.Transparent SiO 2-Ag core-satellite nanoparticle assembledlayer for plasmonic-based chemical sensors, (2012) AppliedPhysics Letters, 100 (22), art. no. 223101

3022. Anghinol�, L; Mattera, L; Canepa, M; Bisio, F Plasmon dis-persion in self-organized Au nanoparticle arrays, PHYSICALREVIEW B, 85 (23):10.1103/PhysRevB.85.235426 JUN 12 2012

3021. Newhouse, RJ; Zhang, JZ Optical Properties and Applica-tions of Shape-Controlled Metal Nanostructures, REVIEWSIN PLASMONICS 2010, 205-238; 2012

3020. Cortie, MB; Liu, FG; Arnold, MD; Niidome, Y Multimode Re-sonances in Silver Nanocuboids, LANGMUIR, 28 (24):9103-9112; 10.1021/la300407u JUN 19 2012

3019. Eguchi, M; Mitsui, D; Wu, HL; Sato, R; Teranishi, T SimpleReductant Concentration-Dependent Shape Control of Poly-hedral Gold Nanoparticles and Their Plasmonic Properties,LANGMUIR, 28 (24):9021-9026; 10.1021/la3002114 JUN 192012

3018. Evlyukhin, AB; Reinhardt, C; Chichkov, BN Multipole contri-butions into resonant scattering of light by nonspherical na-noparticles using the discrete dipole approximation, Editors:Andrews DL; Nunzi JM; Ostendorf A, NANOPHOTONICS IV,8424 10.1117/12.922295 2012

3017. Gong, JX; Zhou, F; Li, ZY; Tang, ZY Synthesis of Au/Ag Core-Shell Nanocubes Containing Varying Shaped Cores andTheir Localized Surface Plasmon Resonances, LANGMUIR,28 (24):8959-8964; 10.1021/la204684u JUN 19 2012

3016. Haggui, M; Dridi, M; Plain, J; Marguet, S; Perez, H; Schatz,GC; Wiederrecht, GP; Gray, SK; Bachelot, R Near-�eld op-tical properties of Au-Nanocubes: con�nement of hot andcold spots, Editors: Andrews DL; Nunzi JM; Ostendorf A, NA-NOPHOTONICS IV, 8424 10.1117/12.922414 2012 Proceedingsof SPIE - The International Society for Optical Engineering8424 , art. no. 84240M

3015. Ji, A; Sangita; Sharma, RP A study of nanoellipsoids forthin-�lm plasmonic solar cell applications, J. PHYSICS D-APPLIED PHYSICS, 45 (27):10.1088/0022-3727/45/27/275101JUL 11 2012

3014. Nedyalkov, NN; Atanasov, PA; Toshkova, RA; Gardeva, EG;Yossifova, LS; Alexandrov, MT; Karashanova, D Laser hea-ting of gold nanoparticles: photothermal cancer cell the-rapy, Editors: Popp J; Drexler W; Tuchin VV; Matthews DLBIOPHOTONICS: PHOTONIC SOLUTIONS FOR BETTER HEALTHCARE III, 8427 10.1117/12.921776 2012

3013. Macias, D; Adam, PM; Ruiz-Cortes, V; Rodriguez-Oliveros,R; Sanchez-Gil, JA Heuristic optimization for the design ofplasmonic nanowires with speci�c resonant and scatteri-ng properties, OPTICS EXPRESS, 20 (12):13146-13163; JUN 42012

3012. Chae, W.-S., Kim, E.-M., Yu, H., Jeon, S., Jung, J.-S. Helix-coiled gold nanowires for molecular sensing, 2012, J. Na-noscience and Nanotechnology 12 (4) , pp. 3501-3505

3011. Dengler, S., Kubel, C., Schwenke, A., Ritt, G., Eberle, B. Near-and o�-resonant optical limiting properties of goldsilveralloy nanoparticles for intense nanosecond laser pulses,2012, J. Optics (United Kingdom) 14 (7) , art. no. 075203

3010. Cao, M; Wang, M; Gu, N Plasmon Singularities from MetalNanoparticles in Active Media: In�uence of Particle Sha-pe on the Gain Threshold, PLASMONICS, 7 (2):347-351;10.1007/s11468-011-9313-5 JUN 2012

3009. Lumdee, C., Toroghi, S., Kik, P.G. Post-fabrication voltagecontrolled resonance tuning of nanoscale plasmonic anten-nas, 2012, ACS Nano 6 (7) , pp. 6301-6307


3008. Myroshnychenko, V., Nelayah, J., Adamo, G., Geuquet,N., Rodriguez-Fernandez, J., Pastoriza-Santos, I., MacDo-nald, K.F., (...), Garcia De Abajo, F.J. Plasmon spectroscopyand imaging of individual gold nanodecahedra: A combi-ned optical microscopy, cathodoluminescence, and electronenergy-loss spectroscopy study, 2012, Nano Letters 12 (8) ,pp. 4172-4180

3007. Almeida, E; Moreira, ACL; Brito-Silva, AM; Galembeck, A; deMelo, CP; Menezes, LD; de Araujo, CB Ultrafast dephasingof localized surface plasmons in colloidal silver nanopar-ticles: the in�uence of stabilizing agents, APPLIED PHYSICSB-LASERS AND OPTICS, 108 (1):9-16; 10.1007/s00340-012-5057-y JUL 2012

3006. K. Kolwas, A. Derkachova, Damping rates of surface plas-mons for particles of size from nano- to micrometers; reduc-tion of the nonradiative decay, J. Quantitative Spectroscopyand Radiative Transfer 114 , pp. 45-55 (2013)

3005. Gnanavel, M.; Sunandana, C.S. Self-Assembled AgatAgICore-Shell Nanoparticles in Iodized Ag/PVA Thin Films:Transmission Electron Microscopy, Optical Absorption andPhotoluminescence Studies, Advanced Science, Engineeringand Medicine, Volume 5, Number 3, March 2013 , pp. 206-216(11)

3004. A de Matos, R; da Silva Cordeiro, T.; Elgul Samad, R;Dias Vieira, N; Coronato Courrol, L. Green synthesis of goldnanoparticles of di�erent sizes and shapes using agar–agarwater solution and femtosecond pulse laser irradiation, Ap-plied Physics A: Materials Science & Processing, 2012 109(3):737-741

3003. Sekhon, J.S., Verma, S.S. Rational Selection of Nanorod Plas-mons: Material, Size, and Shape Dependence Mechanismfor Optical Sensors, 2012, Plasmonics 7 (3) , pp. 453-459

3002. Borodinova, T.I., Kravets, V.G., Romanyuk, V.R. Gold na-nocrystals as a substrate for microraman spectroscopy,2012, J. Nano- and Electronic Physics 4 (2) , art. no. 02039, pp. 02039-1-02039-8

3001. Beyene, H.T., Weber, J.W., Verheijen, M.A., van de Sanden,M.C.M., Creatore, M. Real time in situ spectroscopic ellipso-metry of the growth and plasmonic properties of au nano-particles on SiO 2, 2012, Nano Research 5 (8) , pp. 513-520

3000. Odom, T.W., You, E.-A., Sweeney, C.M. Multiscale plasmonicnanoparticles and the inverse problem, (2012) J. PhysicalChemistry Letters, 3 (18) pp. 2611-2616.

2999. Huang, F., Wang, X., Xu, J., Chen, D., Wang, Y. A plasmonicnano-antenna with controllable resonance frequency: Cu1.94S-ZnS dimeric nanoheterostructure synthesized in solu-tion, (2012) J. Materials Chemistry, 22 (42) pp. 22614-22618.

2998. Han, F; Guan, ZP; Tan, TS; Xu, QH Size-DependentTwo-Photon Excitation Photoluminescence Enhancement inCoupled Noble-Metal Nanoparticles, ACS APPLIED MATE-RIALS & INTERFACES, 4 (9):4746-4751; 10.1021/am301121kSEP 2012

2997. Kim, M; Lee, YW; Kim, D; Lee, S; Ryoo, SR; Min, DH; Lee,SB; Han, SW Reshaping Nanocrystals for Tunable Plasmo-nic Substrates, ACS APPLIED MATERIALS & INTERFACES, 4(9):5038-5043; 10.1021/am3015058 SEP 2012

2996. Karvianto; Chow, GM Size-dependent transformation fromAg templates to Au-Ag nanoshells via galvanic replace-ment reaction in organic medium, J. Nanopart. Res., 14(10):10.1007/s11051-012-1186-9 OCT 2012

2995. Guan, Z., Li, S., Cheng, P.B.S., Zhou, N., Gao, N., Xu, Q.-H. Band-selective coupling-induced enhancement of two-photon photoluminescence in gold nanocubes and its ap-plication as turn-on �uorescent probes for cysteine and glu-tathione, 2012, ACS Applied Materials and Interfaces 4 (10), pp. 5711-5716

2994. Emeline, AV; Kuznetsov, VN; Ryabchuk, VK; Serpone, N Onthe way to the creation of next generation photoactive ma-terials, Environ Sci Pollut R, 19 (9):3666-3675; 1 2012

2993. Liu, H., Zhang, X., Shen, Y., Zhang, L., Wang, J., Zhu, F.,Zhang, B., Liu, C. Tailoring the size distribution of ag na-noparticles embedded in SiO 2 by Xe ion postirradiation,2012, Applied Physics Express 5 (10) , art. no. 105002

2992. Tranda�lovic, L.V., Luyt, A.S., Bibic, N., Dimitrijevic-Brankovic, S., Georges, M.K., Radhakrishnan, T., Djokovic,V. Formation of nano-plate silver particles in the presenceof polyampholyte copolymer, 2012, Colloids and SurfacesA: Physicochemical and Engineering Aspects 414 , pp. 17-25

2991. Tan, G., Onur, M.A., Saglam, N. Utilization of gold nanostruc-tures in biomedical applications, 2012, Turkish J. Biology 36(6) , pp. 607-621

2990. Logsdail, A.J., Johnston, R.L. Predicting the optical propertiesof core-shell and Janus segregated Au-M nanoparticles (M= Ag, Pd), 2012, J. Physical Chemistry C 116 (44) , pp. 23616-23628

2989. Grigorchuk, N.I. E�ect of surface plasmon linewidth oscilla-tions on optical properties of metal nanoparticle embeddedin a dielectric media, 2012, J. Physical Chemistry C 116 (44), pp. 23704-23712

2988. Zhang, Yinan; Yu, Jun; Birch, David. J. S.; et al. Two-PhotonLuminescence and Energy Transfer of Gold Nanorods forCell Imaging, 12th IEEE International Conference on Nano-technology (IEEE-NANO) Location: Birmingham, ENGLAND


Date: AUG 20-23, 2012 2012 12TH IEEE CONFERENCE ONNANOTECHNOLOGY (IEEE-NANO)

2987. Niesen, B., Rand, B.P., Van Dorpe, P., Cheyns, D., Shen, H.,Maes, B., Heremans, P. Near-�eld interactions between me-tal nanoparticle surface plasmons and molecular excitonsin thin-�lms. Part I: Absorption, 2012, J. Physical ChemistryC 116 (45) , pp. 24206-24214

2986. Xu, Q., Liu, F., Meng, W., Huang, Y. Plasmonic core-shellmetal-organic nanoparticles enhanced dye-sensitized so-lar cells, 2012, Optics Express 20 (23) , pp. A898-A907

2985. Chakravadhanula, V.S.K., Kubel, C., Hrkac, T., Zaporojtchen-ko, V., Strunskus, T., Faupel, F., Kienle, L. Surface segregationin TiO 2-based nanocomposite thin �lms, 2012, Nanotech-nology 23 (49) , art. no. 495701

2984. Bottomley, A., Prezgot, D., Ianoul, A. Plasmonic properties ofsilver nanocube monolayers on high refractive index subs-trates, (2012) Applied Physics A: Materials Science and Pro-cessing, 109 (4) pp. 869-872.

2983. De Matos, R.A., Da Silva Cordeiro, T., Samad, R.E., VieiraJr., N.D., Courrol, L.C. Green synthesis of gold nanoparti-cles of di�erent sizes and shapes using agar-agar watersolution and femtosecond pulse laser irradiation, (2012) Ap-plied Physics A: Materials Science and Processing, 109 (3)pp. 737-741

2982. Szacilowski, Konrad Low-Dimensional Metals andSemiconductors, John Wiley & Sons, Ltd, doi:10.1002/9780470710883.ch4, pp 63–117 (2012)

2981. Fernandez-Hernandez, RC; Gleason-Villagran, R; Torres-Torres, C; Rodriguez-Fernandez, L; Crespo-Sosa, A; Cheang-Wong, JC; Lopez-Suarez, A; Rangel-Rojo, R; Oliver, A; Reyes-Esqueda, JA On the physical contributions to the third-ordernonlinear optical response in plasmonic nanocomposites, J.OPTICS, 14 (12):10.1088/2040-8978/14/12/125203 DEC 2012

2980. Qiu, LQ; Saravanamuttu, K Modulation instability of incan-descent light in a photopolymer doped with Ag nanopar-ticles, J. OPTICS, 14 (12):10.1088/2040-8978/14/12/125202DEC 2012

2979. Qiu, WJ; DeLacy, BG; Johnson, SG; Joannopoulos, JD; Solja-cic, M Optimization of broadband optical response of multi-layer nanospheres, OPTICS EXPRESS, 20 (16):18494-18504;JUL 30 2012

2978. Siddhanta, S; Thakur, V; Narayana, C; Shivaprasad, SM Uni-versal Metal-Semiconductor Hybrid Nanostructured SERSSubstrate for Biosensing, ACS APPLIED MATERIALS & INTER-FACES, 4 (11):5807-5812; 10.1021/am302102p NOV 2012

2977. Hutter, T., Elliott, S.R., Mahajan, S. Interaction of metallic na-noparticles with dielectric substrates: E�ect of optical cons-tants, 2013, Nanotechnology 24 (3) , art. no. 035201

2976. Chen, J.-J., Wu, J.C.S., Wu, P.C., Tsai, D.P. Improved photoca-talytic activity of shell-isolated plasmonic photocatalyst Auat SiO2/TiO2 by promoted LSPR, 2012, J. Physical ChemistryC 116 (50) , pp. 26535-26542

2975. Bianco, G.V., Giangregorio, M.M., Losurdo, M., Capezzuto, P.,Bruno, G. Supported faceted gold nanoparticles with tuna-ble surface plasmon resonance for NIR-SERS, 2012, Advan-ced Functional Materials 22 (24) , pp. 5081-5088

2974. Anghinol�, L., Cabrera, L.I., Caminale, M., Moroni, R., Mo-rales, M.P., Caprile, L., Canepa, M., (...), Bisio, F. Compo-site gold/magnetite plasmonic-magnetic media based onself-organization, 2012, Nanosci & Nanotech Lett 4 (11) , pp.1087-1091

2973. Hong, Y., Pourmand, M., Boriskina, S.V., Reinhard, B.M.Enhanced light focusing in self-assembled optoplasmonicclusters with subwavelength dimensions, 2013, AdvancedMaterials 25 (1) , pp. 115-119

2972. Wang, R.-C., Lin, Y.-X., Huang, M.R.S., Chao, C.-Y.Orientation-controlled growth and optical properties of di-verse Ag nanoparticles on Si(100) and Si(111) wafers, 2013,Nanotechnology 24 (4) , art. no. 045601

2971. Nedyalkov, N.N., Dikovska, A., Dimitrov, I., Nikov, R., Atana-sov, P.A., Toshkova, R.A., Gardeva, E.G., Yossifova, LS; Ale-xandrov, M.T. Far-and near-�eld optical properties of goldnanoparticle ensembles, 2012, Quantum Electronics 42 (12), pp. 1123-1127

2970. Lumdee, C., Kik, P.G. Voltage controlled nanoparticle plas-mon resonance tuning through anodization, 2012, Procee-dings of SPIE - The International Society for Optical Engi-neering 8457 , art. no. 84570T

2969. J He, C Fan, J Wang, P Ding, G Cai, Y Cheng, S Zhu, E LiangA giant localized �eld enhancement and high sensitivity inan asymmetric ring by exhibiting Fano resonance, J. Opt.15, 025007 (2013)

2968. Keegan, G.L., Aherne, D., Defrancq, E., GunKo, Y.K., Kelly,J.M. Oligonucleotide functionalization of hollow triangulargold silver alloy nanoboxes, 2013, Journal of Physical Che-mistry C 117 (1) , pp. 669-676

2967. J Olson, P Swanglap, W.-S. Chang, S Khatua, D Solis andS Link Detailed mechanism for the orthogonal polarizationswitching of gold nanorod plasmons, Phys. Chem. Chem.Phys., 2013, 15, 4195-4204


2966. F Wang, D Li, D Yang, and D Que Enhancement of orange-yellow electroluminescence extraction from SiNx light-emitting devices by silver nanostructures, Optics Express,Vol. 21, Issue 1, pp. 846-854 (2013)

2965. F Masia, W Langbein P Borri Polarization-resolved ultra-fast dynamics of the complex polarizability in single goldnanoparticles, DOI:10.1039/c2cp43451b Phys. Chem. Chem.Phys., 2013, 15, 4226-4232

2964. S Patala, L D. Marks, M Olvera de la Cruz Elastic StrainEnergy E�ects in Faceted Decahedral Nanoparticles, J. Phys.Chem. C, 2013, 117 (3), pp 1485–1494

2963. E Pedrueza, J Sancho-Parramon, S Bosch, J L Valdes,J P Martinez-Pastor Plasmonic layers based on Au-nanoparticle-doped TiO2 for optoelectronics: structural andoptical properties, 2013 Nanotechnology 24 065202

2962. Gnanavel, M.; Sunandana, C.S. Self-Assembled Ag at AgICore-Shell Nanoparticles in Iodized Ag/PVA Thin Films:Transmission Electron Microscopy, Optical Absorption andPhotoluminescence Studies, Advanced Science, Enginee-ring and Medicine, Volume 5, Number 3, March 2013, pp. 206-216(11) American Scienti�c Publishers DOI:http://dx.doi.org/10.1166/asem.2013.1247

2961. T Ribeiro, T J.V. Prazeres , M G. Mo�tt , JP Sequeira FarinhaEnhanced Photoluminescence from Micellar Assemblies ofCadmium Sul�de Quantum Dots and Gold Nanoparticles, J.Phys. Chem. C 117 (6) , pp. 3122-3133 2013

2960. X Qu, C Yao, J Wang, Z Li, Z Zhang Anti-CD30-targeted goldnanoparticles for photothermal therapy of L-428 Hodgkin’scell, Int J Nanomedicine. 2012; 7: 6095–6103.

2959. G Tan,, M A Onur, N Saglam Utilization of gold nanostructu-res in biomedical applications, Turk J Biol, 36 (2012) 607-621doi:10.3906/biy-1112-6

2958. T Sandu Eigenmode Decomposition of the Near-FieldEnhancement in Localized Surface Plasmon Resonancesof Metallic Nanoparticles, Plasmonics 2012, 1557-1955,10.1007/s11468-012-9403-z

2957. Liu F, Plasmonic Organic Electronic Devices, 11-Jan-2012 Canadian theses, Thesis (Ph.D, Chemistry) –Queen’s University, 2012-01-05 17:22:40.074, URI:http://hdl.handle.net/1974/6950

2956. M Rani, NK Sharma,V Saja Localized surface plasmon reso-nance based �ber optic sensor with nanoparticles, OpticsCommunications, 292, 92-100, 2013

2955. C Zheng, F Chen Multiple Surface Plasmon Resonancesin a Metal–Insulator–Metal Structure Assembled Via Sil-ver–Copper Nanoparticle Arrays, Plasmonics 8 (2) , pp. 651-656, 2013, DOI:10.1007/s11468-012-9451-4

2954. J Du, L Jiang, Q Shao, X Liu, RS Marks, J Ma, X Chen Co-lorimetric Detection of Mercury Ions Based on PlasmonicNanoparticles, (2013) Small, 9 (9-10) pp. 1467-1481

2953. RC Fernandez-Hernandez, L Tamayo-Rivera, I Rocha-Mendoza, R Rangel-Rojo, A Oliver, JA Reyes-Esqueda An-isotropic Second-and Third-Order Nonlinear Optical Res-ponse from Anisotropy-Controlled Metallic Nanocomposi-tes, http://cdn.intechopen.com/pdfs/29952/

2952. Xinzhou Ma Electrochemical Machining of Gold Nanostruc-tures and Optical Characterization with Cathodoluminescen-ce Zur Erlangung des akademischen Grades eines DOK-TORS DER NATURWISSENSCHAFTEN (Dr. rer. nat.), der Fa-kultat fur Chemie und Biowissenscha�en Karlsruher Institutfur Technologie (KIT) – Universitatsbereich Genehmigte

2951. A Vaskevich, I Rubinstein Localized Surface Plasmon Re-sonance (LSPR) Transducers Based on Random EvaporatedGold Island Films: Properties and Sensing Applications, InNanoplasmonic Sensors, 333-368, 2012, DOI:10.1007/978-1-4614-3933-2-14 Springer New York

2950. C. L. Du, Y. M. You, Z. H. Ni, J. Kasim, Z. X. Shen —textitCon-focal White Light Re�ection Imaging for Characterization ofNanostructures, http://cdn.intechopen.com/pdfs/33202/

2949. Yujun Song Controlled Fabrication of Noble Metal Nanoma-terials via Nanosphere Lithography and Their Optical Pro-perties, http://cdn.intechopen.com/pdfs/24513/

2948. N Harris, S Li, GC Schat Nanoparticles andtheory, AIP Conf. Proc. 1504, pp. 31-42;doi:http://dx.doi.org/10.1063/1.4771701 INTERNATIO-NAL CONFERENCE OF COMPUTATIONAL METHODS INSCIENCES AND ENGINEERING 2009: (ICCMSE 2009)

2947. Hiroo Omi Determination of Aspect-Ratio Distribu-tion in Gold Nanowires Using Absorption Spectraand Transmission Electron Microscopy Techniques,http://cdn.intechopen.com/pdfs/34881/

2946. J Sun, J Ge, W Liu, X Wang, Z Fan, W Zhao, H Zhang, P Wang,S-T Lee A facile assay for direct colorimetric visualizationof lipopolysaccharides at low nanomolar level, Nano Re-search, 2012, Volume 5, Issue 7, pp 486-493

2945. F Han, Z Guan, T S Tan, Q-H Xu Size-Dependent Two-PhotonExcitation Photoluminescence Enhancement in CoupledNoble-Metal Nanoparticles, ACS Appl. Mater. Interfaces,2012, 4 (9), pp 4746–4751

2944. Sandu, T; Boldeiu, G. Extinction spectra and near-�eld en-hancement of metallic nanoparticles, Proceedings of theInternational Semiconductor Conference, CAS 2 , art. no.6400736 , pp. 441-444


2943. A Salomon, M Zielinski, R Kolkowski, J Zyss, Y Prior Shapeand Size Resonances in Second Harmonic Generation fromPlasmonic Nano-Cavities, 2012, arXiv:1201.6191

2942. HUANG SHU-YING Gold nanoparticles-protein conjugate stu-dies: Centrifugation and binding studies, 2012, Department:CHEMICAL & BIOMOLECULAR ENGINEERING, Thesis MASTEROF ENGINEERING, National University of Singapore

2941. Pedrueza, E., Sancho-Parramon, J., Bosch, S., Valdes,J.L., Martinez-Pastor, J.P. Plasmonic layers based on Au-nanoparticle-doped TiO2 for optoelectronics: Structural andoptical properties, 2013, Nanotechnology 24 (6) , art. no.065202

2940. Md. Shamim Ahsan, Man Seop Lee, Colorizing mechanismof brass surface by femtosecond laser induced microstruc-tures, Optik - International Journal for Light and ElectronOptics, Available online 7 February 2013, ISSN 0030-4026,10.1016/j.ijleo.2012.12.006

2939. Chai, Penglan; Liu, Jun; Tang, Jun; Shi, Yunbo; Xue, Chenyan;Wen, Huanfei Base E�ects on Fluorescence and Surface-Enhanced Raman Scattering of Crystal Violet Adsorbed onAu Nanoparticles Surface, Journal of Nanoscience and Na-notechnology, Volume 13, Number 2, February 2013 , pp.1011-1016(6)

2938. A. Schwenke, H. Daluge, R. Kiyan, C. L. Sajti, and B. ChichkovNon-agglomerated gold-pmma nanocomposites by in situ-stabilized laser ablation in liquid monomer for optical ap-plications, (2013) Applied Physics A: Materials Science andProcessing, 111 (2) pp. 451-457..

2937. F. Wang, D. Li, D. Yang, and D. Que, Enhancement oforange-yellow electroluminescence extraction from SiNxlight-emitting devices by silver nanostructures Opt. Express21, 846-854 (2013).

2936. Xiang Xu, Xiaoping Shen, Hu Zhou, Dezhou Qiu, GuoxingZhu, Kangmin Chen, Facile microwave-assisted synthesis ofmonodispersed ball-like Ag at AgBr photocatalyst with highactivity and durability, Applied Catalysis A: General, 2013,Applied Catalysis A: General 455 , pp. 183-192

2935. R. F. Aroca. Plasmon enhanced spectroscopy, Physical Che-mistry Chemical Physics 15, 5355-5363 , 2013.

2934. S.L. Smitha, K.G. Gopchandran, N. Smijesh, Reji Philip, Size-dependent optical properties of Au nanorods Progress inNatural Science: Materials International, Available online 26February 2013, 10.1016/j.pnsc.2013.01.005.

2933. Rockstuhl C. Rockstuhl, T. Scharf, W. Khunsin, and R. Vogel-gesang. Nano-Optics and Nanophotonics pages 169–200.Springer Berlin Heidelberg, 2013.

2932. Camelio, S., Babonneau, D., Pailloux, F., Rousselet, S., Van-denhecke, E. Sub-Wavelength Arrays of Metallic Nano-particles for Polarization-Selective Broad-Band Absorbers,Nanoscience and Nanotechnology Letters 5, 19-26, 2013,doi:10.1166/nnl.2013.1418

2931. C. S. S. R. Kumar, H. Jing, L. Zhang, and H. Wang Geometri-cally Tunable Optical Properties of Metal Nanoparticles, inUV-VIS and Photoluminescence Spectroscopy for Nanoma-terials Characterization, pages 1–74. Springer Berlin Heidel-berg, 2013.

2930. C. S. S. R. Kumar and J. Toudert Modeling and Optical Cha-racterization of the Localized Surface Plasmon Resonancesof Tailored Metal Nanoparticles pages 231 –285. SpringerBerlin Heidelberg, 2013.

2929. Belahmar, A., Chouiyakh, A. E�ect of post-annealing onstructural and optical properties of gold nanoparticles em-bedded in silica �lms grown by RF-sputtering Advances inPhysics Theories and Applications, 15, 38-46 (2013).

2928. M. Schlesinger, D. Travo, R. Huang, T. Cheng, C. Rangan, E.Ertorer, and S. Mittler. Modern Aspects of Electrochemistry,volume 56, pages 343–379. Springer US, 2013.

2927. Saracut, V., Giloan, M., Gabor, M., Astilean, S., Farcau, C.Polarization-sensitive linear plasmonic nanostructures viacolloidal lithography with uniaxial colloidal arrays, 2013,ACS Applied Materials and Interfaces 5 (4) , pp. 1362-1369

2926. Lerme, J., Bonnet, C., Broyer, M., Cottancin, E., Manchon, D.,Pellarin, M. Optical properties of a particle above a dielec-tric interface: Cross sections, benchmark calculations, andanalysis of the intrinsic substrate e�ects, 2013 Journal ofPhysical Chemistry C 117 (12) , pp. 6383-6398

2925. Caminale, M., Anghinol�, L., Magnano, E., Bondino, F., Ca-nepa, M., Mattera, L., Bisio, F. Tuning the magneto-opticalresponse of iron oxide nanocrystals in Au- and Ag-basedplasmonic media, 2013, ACS Applied Materials and Interfa-ces 5 (6) , pp. 1955-1960

2924. Yu, J., Saito, Y., Ichimura, T., Kawata, S., Verma, P. Far-�eldfree tapping-mode tip-enhanced Raman microscopy, 2013,Applied Physics Letters 102 (12) , art. no. 123110

2923. Sanchez, V.M., Martnez, E.D., Martınez Ricci, M.L., Troiani,H., Soler-Illia, G.J.A.A. Optical properties of Au nanoparticlesincluded in mesoporous TiO 2 thin �lms: A dual experimen-tal and modeling study, 2013, J Phys Chem C 117 (14) , pp.7246-7259

2922. Read, T; Olkhov, R V.; Shaw, A M. Measurement of the locali-sed plasmon penetration depth for gold nanoparticles usinga non-invasive bio-stacking method, Phys. Chem. Chem.Phys. 15 (16): 6122-6127, 2013


2921. C. Rockstuhl, T. Scharf, W. Khunsin, and R. Vogelgesang Re-cent Advances in Near�eld Optical Analysis and Descriptionof Amorphous Metamaterials in Nano-Optics and Nanopho-tonics, pages 169–200. Springer Berlin Heidelberg, 2013.

2920. M. Schlesinger, D. Travo, R. Huang, T. Cheng, C. Rangan,E. Ertorer, and S. Mittler. Experimental and Theoretical Is-sues of Nanoplasmonics in Medicine, in Modern Aspects ofElectrochemistry, volume 56, pages 343-379. Springer US,2013.

2919. Mohammad Kamal Hossain, Surface-Enhanced RamanScattering: A Technique of Choice for Molecular Detection,2013, Materials Science Forum: INORGANIC NANOMEDICINE:SYNTHESIS, CHARACTERIZATION AND APPLICATION, 754, pp.143-169

2918. V. A. G. Rivera ; Y. Ledemi ; S. P. A. Osorio ; F. A. Ferri ;Y. Messaddeq ; L. A. O. Nunes ; E. Marega; Optical gainmedium for plasmonic devices, (2013) Proceedings of SPIE- The International Society for Optical Engineering, 8621,art. no. 86211J

2917. Singh, A; Chernenko, T; Amiji, M Theranostic Applicationsof Plasmonic Nanosystems, Editor(s): Hepel M; Zhong CJ enFUNCTIONAL NANOPARTICLES FOR BIOANALYSIS, NANOME-DICINE, AND BIOELECTRONIC DEVICES, VOL 2, 1113 383-413;2012, ACS Symposium Series

2916. Ko, WB; Oh, YJ; Cho, BH Preparation of Ag-SiO2 Nanocom-posites and Photocatalytic Degradation of Organic Dyes,ASIAN JOURNAL OF CHEMISTRY, 25 (8):4657-4660; B JUL2013

2915. Zhou, N., Polavarapu, L., Gao, N., Pan, Y., Yuan, P., Wang,Q., Xu, Q.-H. TiO2 coated Au/Ag nanorods with enhancedphotocatalytic activity under visible light irradiation, 2013,Nanoscale 5 (10) , pp. 4236-4241

2914. Guan, Z., Gao, N., Jiang, X.-F., Yuan, P., Han, F., Xu, Q.-H. Hu-ge enhancement in two-photon photoluminescence of aunanoparticle clusters revealed by single-particle spectros-copy, 2013, Journal of the American Chemical Society 135(19) , pp. 7272-7277

2913. Gong, YC; Zhou, Y; He, LB; Xie, B; Song, FQ; Han, M; Wang,GH Systemically tuning the surface plasmon resonance ofhigh-density silver nanoparticle �lms, EUROPEAN PHYSICALJOURNAL D, 67 (4):10.1140/epjd/e2013-30540-9 APR 2013

2912. Yang, N., Li, W.-H.Mango peel extract mediated novel routefor synthesis of silver nanoparticles and antibacterial ap-plication of silver nanoparticles loaded onto non-woven fa-brics, (2013) Industrial Crops and Products, 48 pp. 81-88.

2911. Abraham, P.M., Barnikol, S., Baumann, T., Kuehn, M., Ivleva,N.P., Schaumann, G.E. Sorption of silver nanoparticles toenvironmental and model surfaces, (2013) EnvironmentalScience and Technology, 47 (10) pp. 5083-5091.

2910. Jiang, X.-F., Pan, Y., Jiang, C., Zhao, T., Yuan, P., Venkate-san, T., Xu, Q.-H. Excitation nature of two-photon photolu-minescence of gold nanorods and coupled gold nanopar-ticles studied by two-pulse emission modulation spectros-copy, (2013) Journal of Physical Chemistry Letters, 4 (10) pp.1634-1638.

2909. Hebie, S., Cornu, L., Napporn, T.W., Rousseau, J., Kokoh, B.K.Insight on the surface structure e�ect of free gold nano-rods on glucose electrooxidation, (2013) Journal of PhysicalChemistry C, 117 (19) pp. 9872-9880.

2908. Jiang, C., Zhao, T., Yuan, P., Gao, N., Pan, Y., Guan, Z., Zhou,N., Xu, Q.-H. Two-photon induced photoluminescence andsinglet oxygen generation from aggregated gold nanopar-ticles, 2013, ACS Applied Materials and Interfaces 5 (11) , pp.4972-4977

2907. Tsuboi, A., Nakamura, K., Kobayashi, N. A localized surfaceplasmon resonance-based multicolor electrochromic devicewith electrochemically size-controlled silver nanoparticles,2013, Advanced Materials 25 (23) , pp. 3197-3201

2906. Sugawa, K; Tanaka, D; Ichikawa, T; Takeshima, N De-velopment of Plasmon Resonance Sensing Based onAlkylthiol-Coated Triangular Silver Nanoplates on GlassPlates, JAPANESE JOURNAL OF APPLIED PHYSICS, 52 (4):SI10.7567/JJAP.52.04CK06 2 APR 2013

2905. Zou, XX; Tao, ZM; Asefa, T Semiconductor and PlasmonicPhotocatalysis for Selective Organic Transformations, CU-RRENT ORGANIC CHEMISTRY, 17 (12):1274-1287; JUN 2013

2904. Kwak, J.-A., Lee, D.K., Jang, D.-J. Facile fabrication of pla-tinum nanobubbles having e�cient catalytic degradationperformances, 2013, Applied Catalysis B: Environmental142-143 , pp. 323-328

2903. Xu, Q., Liu, F., Liu, Y., Cui, K., Feng, X., Zhang, W., Huang, Y.Broadband light absorption enhancement in dye-sensitizedsolar cells with Au-Ag alloy popcorn nanoparticles, 2013,Scienti�c Reports 3 , art. no. 2112

2902. Ajitha, B., Reddy, P.S. In�uence of pH on the properties ofPVA capped silver nanoparticles, 2013, AIP Conference Pro-ceedings 1536 , pp. 133-134

2901. Tian, X.-D., Liu, B.-J., Li, J.-F., Yang, Z.-L., Ren, B., Tian, Z.-Q.SHINERS and plasmonic properties of Au Core SiO2 shellnanoparticles with optimal core size and shell thickness,2013, Journal of Raman Spectroscopy 44 (7) , pp. 994-998


2900. Bergamini, L., Corni, S. Benchmarking common approxi-mations for determining the particle-size dependence ofadsorbate-induced localized surface plasmon resonanceshi�s, 2013, Journal of Physical Chemistry C 117 (28) , pp.14742-14750

2899. Andrieux-Ledier, A., Tremblay, B., Courty, A. Synthesis ofsilver nanoparticles using di�erent silver phosphine precur-sors: Formation mechanism and size control, 2013, Journalof Physical Chemistry C 117 (28) , pp. 14850-14857

2898. Kedia, A; Kumar, PS Controlled reshaping and plasmon tu-ning mechanism of gold nanostars, JOURNAL OF MATERIALSCHEMISTRY C, 1 (30):4540-4549; 2013

2897. Sugawa, K., Tanaka, D., Ichikawa, T., Takeshima, N. Deve-lopment of plasmon resonance sensing based on alkylthiol-coated triangular silver nanoplates on glass plates, 2013,Japanese Journal of Applied Physics 52 (4 PART 2) , art. no.04CK06

2896. Maidecchi, G., Gonella, G., Proietti Zaccaria, R., Moroni, R.,Anghinol�, L., Giglia, A., Nannarone, S., (...), Bisio, F. Deepultraviolet plasmon resonance in aluminum nanoparticlearrays, 2013, ACS Nano 7 (7) , pp. 5834-5841

2895. Pudlauskaite, J., Jankauskaite, V., Lazauskas, A., Prosyce-vas, I., Narmontas, P. Ag/DNQ-novolac-based nanocomposi-te �lms for controllable UV lithography morphological pat-terning, 2013, Colloid and Polymer Science 291 (8) , pp.1787-1793

2894. Fomichev, S.V., Bratkovsky, A.M. Uni�ed hydrodynamic ap-proach to laser �eld plasmon excitations in metal nanopar-ticles with general shape, 2013, Physical Review B - Conden-sed Matter and Materials Physics 88 (4) , art. no. 045433

2893. Sim, H., Kim, S., Lee, J., Lee, H.J. Creating highly sensiti-ve and selective biochip sensors for the detection of orga-nophosphorus/carbamate pesticides, 2009, Journal of theKorean Industrial and Engineering Chemistry 20 (6) , pp.571-580

2892. Sekhon, J.S., Malik, H.K., Verma, S.S. DDA simulations of no-ble metal and alloy nanocubes for tunable optical proper-ties in biological imaging and sensing, 2013, RSC Advances3 (35) , pp. 15427-15434

2891. DeLacy, B.G., Qiu, W., Soljacic, M., Hsu, C.W., Miller,O.D., Johnson, S.G., Joannopoulos, J.D. Layer-by-layer self-assembly of plexcitonic nanoparticles, 2013, Optics Express21 (16) , pp. 19103-19112

2890. Hung, L; Lee, SY; McGovern, O; Rabin, O; Mayergoyz, I Cal-culation and measurement of radiation corrections for plas-mon resonances in nanoparticles, PHYSICAL REVIEW B, 88(7):10.1103/PhysRevB.88.075424 AUG 19 2013

2889. Meng, XG; Fujita, K; Moriguchi, Y; Zong, YH; Tanaka, KMetal-Dielectric Core-Shell Nanoparticles: Advanced Plas-monic Architectures Towards Multiple Control of RandomLasers, ADVANCED OPTICAL MATERIALS, 1 (8):573-580;10.1002/adom.201300153 AUG 2013

2888. Hutter, T., Mahajan, S., Elliott, S.R. Near-�eld optical enhan-cement by lead-sul�de quantum dots and metallic nano-particles for SERS, 2013, Journal of Raman Spectroscopy 44(9) , pp. 1292-1298

2887. Piccini, G., Havenith, R.W.A., Broer, R., Stener, M. Gold nano-wires: A time-dependent density functional assessment ofplasmonic behavior, 2013, Journal of Physical Chemistry C117 (33) , pp. 17196-17204

2886. Grachev, S., Grazia, M.D., Barthel, E., Sondergard, E., Laz-zari, R. Real-time monitoring of nanoparticle �lm growth athigh deposition rate with optical spectroscopy of plasmonresonances, 2013, J of Physics D: Applied Physics 46 (37) ,art. no. 375305

2885. Wei, Q., Wei, A. Plasmon-Resonant gold nanorods asmultifunctional agents for diagnostics, imaging and pho-tothermal therapy (Chapter), 2010, Handbook of Ma-terials for Nanomedicine, ISBN: 978-981426755-7, DOI:10.4032/9789814267588

2884. Cao, T., Zhang, L., Xiao, Z.-P., Huang, H. Enhancement andtunability of Fano resonance in symmetric multilayer me-tamaterials at optical regime, 2013, Journal of Physics D:Applied Physics 46 (39) , art. no. 395103

2883. Dikovska, AO; Alexandrov, MT; Atanasova, GB; Tsankov, NT;Stefanov, PK Silver nanoparticles produced by PLD in va-cuum: role of the laser wavelength used, APPLIED PHY-SICS A-MATERIALS SCIENCE & PROCESSING, 113 (1):83-88;10.1007/s00339-013-7834-9 OCT 2013

2882. Rejikumar, PR; Thomas, V; George, J; Joseph, C; Biju, PR;Unnikrishnan, NV Structural and plasmonic studies of Agnanoparticles in silica glass hosts, NATIONAL SEMINAR ONCURRENT TRENDS IN MATERIALS SCIENCE (CTMS-2011), 4310.1088/1757-899X/43/1/012005 2013

2881. Sanz, J.M., Ortiz, D., Alcaraz De La Osa, R., Saiz, J.M.,Gonz·lez, F., Brown, A.S., Losurdo, M., Everitt, H.O, Moreno,F. UV plasmonic behavior of various metal nanoparticlesin the near- and far-�eld regimes: Geometry and substratee�ects, 2013, Journal of Physical Chemistry C 117 (38) , pp.19606-19615

2880. Akin, Seckin; Karan�l, Gamze; Gultekin, Aytac; etal. Improvement of physical properties of CdO thin�lms by Au-Ag nanocluster codoping, JOURNAL OFALLOYS AND COMPOUNDS 579 Pages: 272-278 DOI:10.1016/j.jallcom.2013.06.059 2013


2879. Wang, F., Zhao, H., Lai, Y., Liu, S., Zhao, B., Ning, Y., Hu, X.Morphosynthesis of cubic silver cages on monolithic activa-ted carbon, 2013, Physical Chemistry Chemical Physics 15(42) , pp. 18367-18370

2878. Bhargava, A; Jain, N; Barathi, LM; Akhtar, MS; Yun, YS; Pan-war, J Synthesis, characterization and mechanistic insightsof mycogenic iron oxide nanoparticles, JOURNAL OF NANO-PARTICLE RESEARCH, 15 (11):10.1007/s11051-013-2031-5 OCT20 2013

2877. Zhou, Y., Yang, J., He, T., Shi, H., Cheng, X., Lu, Y. Highly sta-ble and dispersive silver nanoparticle-graphene compositesby a simple and low-energy-consuming approach and theirantimicrobial activity, 2013, Small 9 (20) , pp. 3445-3454

2876. Au, L., Cobley, C.M., Chen, J., Xia, Y. Gold Nanocages:A Multifunctional Platform for Molecular Optical Imagingand Photothermal Treatment (Chapter), 2011, Nanoplatform-Based Molecular Imaging

2875. Lee, J., Han, K., Jang, D.-J. Silica-coated silver/gold com-posite nanoboxes having enhanced catalytic performancesand reusability, 2014, Applied Catalysis A: General 469 , pp.380-386

2874. Wei, Q., Wei, A. Signal Generation with Gold Nanoparticles:Photophysical Properties for Sensor and Imaging Applica-tions (Chapter ), 2010, The Supramolecular Chemistry ofOrganic-Inorganic Hybrid Materials, ISBN: 978-047037621-8, DOI: 10.1002/9780470552704.ch10, John Wiley & Sons,Inc.

2873. Razumova, M.A., Dmitruk, I.M. Splitting of Plasmon Fre-quency in Spherical Metal Nanoparticles in Anisotropic Me-dium, 2013, Plasmonics 8 (4) , pp. 1699-1706

2872. Duan, H., Xuan, Y. Synthesis and optical absorption ofAg/CdS core/shell plasmonic nanostructure, 2014, SolarEnergy Materials and Solar Cells 121 , pp. 8-13

2871. Zhang, AQ; Qian, DJ; Chen, M Simulated optical proper-ties of noble metallic nanopolyhedra with di�erent sha-pes and structures, EUROPEAN PHYSICAL JOURNAL D, 67(11):10.1140/epjd/e2013-40240-1 NOV 15 2013

2870. Martinsson, E; Shahjamali, MM; Enander, K; Boey, F; Xue,C; Aili, D; Liedberg, B Local Refractive Index Sensing Basedon Edge Gold-Coated Silver Nanoprisms, Journal of PhysicalChemistry C, 117 (44):23148-23154; 2013

2869. Hu, HL; Akimov, YA; Duan, HG; Li, XL; Liao, MY; Tan, RLS; Wu,L; Chen, HY; Fan, HJ; Bai, P; Lee, PS; Yang, JKW; Shen, ZX,Photoluminescence via gap plasmons between single silvernanowires and a thin gold �lm, 2013, Nanoscale 5 (24) , pp.12086-12091

2868. Jang, YH; Chung, K; Quan, LN; Spackova, B; Sipova, H; Moon,S; Cho, WJ; Shin, HY; Jang, YJ; Lee, JE; Kochuveedu, ST; Yoon,MJ; Kim, J; Yoon, S; Kim, JK; Kim, D; Homola, J; Kim, DH,Con�guration-controlled Au nanocluster arrays on inversemicelle nano-patterns: Versatile platforms for SERS and SPRsensors, 2013, Nanoscale 5 (24) , pp. 12261-12271

2867. Tang, W., Chase, D.B., Rabolt, J.F. Immobilization of gold na-norods onto electrospun polycaprolactone �bers via polye-lectrolyte decoration - A 3D SERS substrate, 2013, AnalyticalChemistry 85 (22) , pp. 10702-10709

2866. Jiang, M.-M., Chen, H.-Y., Li, B.-H., Liu, K.-W., Shan, C.-X.,Shen, D.-Z. Hybrid quadrupolar resonances stimulated atshort wavelengths using coupled plasmonic silver nanopar-ticle aggregation, 2014, Journal of Materials Chemistry C 2(1) , pp. 56-63

2865. Amoruso, S., Nedyalkov, N.N., Wang, X., Ausanio, G., Bruzze-se, R., Atanasov, P.A. Ultrashort-pulse laser ablation of goldthin �lm targets: Theory and experiment, 2014, Thin SolidFilms 550 , pp. 190-198

2864. Tsuboi, A., Nakamura, K., Kobayashi, N. Chromatic charac-terization of novel multicolor re�ective display with electro-chemically size-controlled silver nanoparticles, 2013, Jour-nal of the Society for Information Display 21 (8), 361-367

2863. Can-Uc, B; Rangel-Rojo, R; Rodriguez-Fernandez, L; Oliver,A Polarization selectable nonlinearities in elongated silvernanoparticles embedded in silica, OPTICAL MATERIALS EX-PRESS, 3 (12):2012-2021; 2013

2862. Wen, Y.-H., Huang, R., Zeng, X.-M., Shao, G.-F., Sun, S.-G. Te-trahexahedral Pt-Pd alloy nanocatalysts with high-index fa-cets: An atomistic perspective on thermodynamic and shapestabilities, 2014, J Materials Chem. A 2 (5), 1375-1382

2861. Hashemizadeh, S., Rashidi Huyeh, M. Silver nanocolloid:Synthesis, optical and thermo-optical properties, 2014, Ad-vanced Materials Research 829, 670-674

2860. Lee, Y.-J., Schade, N.B., Sun, L., Fan, J.A., Bae, D.R., Mariscal,M.M., Lee, G., Capasso, F., Sacanna, S., Manoharan, V.N.,Yi, G.-R. Ultrasmooth, highly spherical monocrystalline goldparticles for precision plasmonics, 2013, ACS Nano 7 (12),11064-11070

2859. Ahmed, W; Glass, C; Kooij, ES; van Ruitenbeek, JM Tu-ning the oriented deposition of gold nanorods on patter-ned substrates, NANOTECHNOLOGY, 25 (3):10.1088/0957-4484/25/3/035301 JAN 24 2014

2858. Camelio, S; Vandenhecke, E; Rousselet, S; Babonneau, DOptimization of growth and ordering of Ag nanoparticle


arrays on ripple patterned alumina surfaces for strong plas-monic coupling, NANOTECHNOLOGY, 25 (3):10.1088/0957-4484/25/3/035706 JAN 24 2014

2857. Szacilowski, K. (2012) Low-Dimensional Metals and Semi-conductors, in Infochemistry: Information Processing at theNanoscale, John Wiley & Sons, Ltd, Chichester, UK. doi:10.1002/9780470710883.ch4

2856. Zhang, S.-L. (2012) Introduction to Modern Raman Spectros-copy I-New Raman Spectroscopic Branch Classi�ed Basedon Spectral Features, in Raman Spectroscopy and its Appli-cation in Nanostructures, John Wiley & Sons, Ltd, Chichester,UK. doi: 10.1002/9781119961659.ch4

2855. Sanchez-Dena, O; Mota-Santiago, P; Tamayo-Rivera, L;Garcia-Ramirez, EV; Crespo-Sosa, A; Oliver, A; Reyes-Esqueda, JA Size-and shape-dependent nonlinear opticalresponse of Au nanoparticles embedded in sapphire, OPTI-CAL MATERIALS EXPRESS, 4 (1):92-100; 10.1364/OME.4.0092JAN 1 2014

2854. Sinha, B; Goswami, T; Paul, S; Misra, A The impact of surfacestructure and band gap on the optoelectronic propertiesof Cu2O nanoclusters of varying size and symmetry, RSCADVANCES, 4 (10):5092-5104; 10.1039/c3ra45387a 2014

2853. Woehl, TJ; Park, C; Evans, JE; Arslan, I; Ristenpart, WD; Brow-ning, ND Direct Observation of Aggregative NanoparticleGrowth: Kinetic Modeling of the Size Distribution and GrowthRate, NANO LETTERS, 14 (1):373-378; JAN 2014

2852. Chen, H.-Y., Liu, K.-W., Jiang, M.-M., Zhang, Z.-Z., Liu, L., Li,B.-H., Xie, X.-H., Wang, F., Zhao, D.-X., Shan, C.-X., Shen,D.-Z. Tunable hybridized quadrupole plasmons and theircoupling with excitons in ZnMgO/Ag system, Journal of Phy-sical Chemistry C, Volume 118, Issue 1, 9 January 2014, Pages679-684

2851. Zhang, Y., Chen, Y. Applications of gold nanorods based onlocalized surface plasmon resonance in Plasmons: Structu-re, Properties and Applications, Pages 117-130, Editors Turu-nen, A.E., Niemi, J.O., ISBN: 978-162100060-0, Nova Scien-ce Publishers, Inc.

2850. Tran, Q.T., Hoa, H.T.M., Yoo, D.-H., Cuong, T.V., Hur, S.H.,Chung, J.S., Kim, E.J., Kohl, P.A. text itReduced graphene oxi-de as an over-coating layer on silver nanostructures fordetecting NH3 gas at room temperature, Sensors and Ac-tuators, B: Chemical Volume 194, April 2014, Pages 45-50

2849. Daupor, H., Wongnawa, S. Urchinlike Ag/AgCl photocatalyst:Synthesis, characterization, and activity, Applied CatalysisA: General, Volume 473, 5 March 2014, Pages 59-69

2848. Awang, A., Ghoshal, S.K., Sahar, M.R., Ari�n, R., Nawaz, F.Non-spherical gold nanoparticles mediated surface plas-mon resonance in Er3+ doped zinc-sodium tellurite glasses:Role of heat treatment, 2014 Journal of Luminescence 149,May 2014, Pages 138-143

2847. Chau, Y.-F. , Jheng, C.-Y. Buried E�ects of Surface PlasmonResonance Modes for Periodic Metal-Dielectric Nanostruc-tures Consisting of Coupled Spherical Metal Nanoparticleswith Cylindrical Pore Filled with a Dielectric, Plasmonics 9,February 2014, Pages 1-9

2846. Wang, BY; Qu, SL Absorption spectra and near-electric�eld enhancement e�ects of Au- and Ag-Fe3O4 di-mers, APPLIED SURFACE SCIENCE, 292 1002-1008;10.1016/j.apsusc.2013.12.103 FEB 15 2014

2845. Katyal, J., Soni, R.K. Size- and shape-dependent plasmo-nic properties of aluminum nanoparticles for nanosensingapplications, Journal of Modern Optics 60 (20), 2013, 1717-1728

2844. Hu, Y. , Li, Z., Sun, Y. Enhanced photocatalysis by hybridhierarchical assembly of plasmonic nanocrystals with highsurface areas, Catalysis Today 225, 2014, 177-184

2843. Chen, L.ab, Wei, H.b, Chen, K.-Q.a, Xu, H.-X., High-orderplasmon resonances in an Ag/Al2O3 core/shell nanorice,Chinese Physics B, Volume 23, Issue 2, February 2014, Ar-ticle number 027303

2842. Vadakkekara, R., Chakraborty, M. , Parikh, P.A. Synthesis,characterization, and application of monodisperse gelatin-stabilized silver nanospheres in reduction of aromatic ni-tro compounds, Colloid Journal Volume 76, Issue 1, January2014, Pages 12-18

2841. Bansal, A; Sekhon, JS; Verma, SS Scattering E�ciency andLSPR Tunability of Bimetallic Ag, Au, and Cu Nanoparticles,PLASMONICS, 9 (1):143-150; 10.1007/s11468-013-9607-x FEB2014

2840. Battie, Y; Resano-Garcia, A; Chaoui, N; Zhang, Y; Naci-ri, AE Extended Maxwell-Garnett-Mie formulation appliedto size dispersion of metallic nanoparticles embedded inhost liquid matrix, JOURNAL OF CHEMICAL PHYSICS, 140(4):10.1063/1.4862995 JAN 28 2014

2839. Sun, D. , Zhang, G. , Huang, J. , Wang, H. , Li, Q. Plant-mediated fabrication and surface enhanced raman pro-perty of �ower-like Au at Pd nanoparticles, Materials 7 (2),2014, Pages 1360-1369

2838. Wang, T; Zhang, ZS; Liao, F; Cai, Q; Li, YQ; Lee, ST;Shao, MW The E�ect of Dielectric Constants on NobleMetal/Semiconductor SERS Enhancement: FDTD Simulation


and Experiment Validation of Ag/Ge and Ag/Si Substrates,SCIENTIFIC REPORTS, 4 10.1038/srep04052 FEB 11 2014

2837. Nehm, F. , Schubert, S., M¸ller-Meskamp, L., Leo, K. Obser-vation of feature ripening inversion e�ect at the percolationthreshold for the growth of thin silver �lms, Thin Solid Films556, 2014, Pages 381-384

2836. Lee, H., Kwak, J.-A., Jang, D.-J. Observation and characteri-zation of the surface plasmon resonances of platinum na-noshells, Bulletin of the Korean Chemical Society 35, Issue3, 2014, Pages 945-948

2835. Franckevicius, M., Gustainyte, A., Kondrotas, R., Juskenas, R.,Marcos, M., Serrano, J.L., Vaisnoras, R., Gulbinas, V. PPI-SAand PAMAM-SA dendrimers assisted synthesis of silver na-noparticles: Structure, optical properties and stability, Jour-nal of Nanoparticle Research 16, Issue 4, April 2014

2834. Berginc, M; Krasovec, UO; Topic, M Solution Processed SilverNanoparticles in Dye-Sensitized Solar Cells, JOURNAL OFNANOMATERIALS, 10.1155/2014/357979 2014

2833. Chen, H.-Y., Liu, K.-W., Jiang, M.-M., Zhang, Z.-Z., Xie, X.-H., Wang, D.-K., Liu, L., Li, B.-H., Zhao, D.-X., Shan, C.-X.,Shen, D.-Z. Tunable enhancement of exciton emission fromMgZnO by hybridized quadrupole plasmons in Ag nanopar-ticle aggregation, Applied Physics Letters Volume 104, Issue9, 2014, Article number 091119

2832. Battie, Y; Naciri, AE; Chamorro, W; Horwat, D GeneralizedE�ective Medium Theory to Extract the Optical Propertiesof Two-Dimensional Nonspherical Metallic Nanoparticle La-yers, JOURNAL OF PHYSICAL CHEMISTRY C, 118 (9):4899-4905; 10.1021/jp4119343 MAR 6 2014

2831. Mattox, TM; Bergerud, A; Agrawal, A; Milliron, DJ In�uence ofShape on the Surface Plasmon Resonance of Tungsten Bron-ze Nanocrystals, CHEMISTRY OF MATERIALS, 26 (5):1779-1784; 10.1021/cm4030638 MAR 11 2014

2830. Vilchis-Nestor, A.-R., Trujillo-Reyes, J., ColIn-Molina, J.A.,S·nchez-Mendieta, V., Avalos-Borja, M. Biogenic silver nano-particles on carbonaceous material from sewage sludge fordegradation of methylene blue in aqueous solution, Inter-national Journal of Environmental Science and Technology11, Issue 4, May 2014, Pages 977-986

2829. Zhu, XM; Ma, X; Chang, HM; Tao, HZ; Zhao, XJ Morphologytuning of mono-disperse silver nanoparticles by reactiontemperature adjustment, JOURNAL OF WUHAN UNIVERSITYOF TECHNOLOGY-MATERIALS SCIENCE EDITION, 29 (1):40-43; 10.1007/s11595-014-0864-0 FEB 2014

2828. Stoenescu, S., Truong, V.-V., Packirisamy, M. Non-destructivequanti�cation of alignment of nanorods embedded in unia-xially stretched polymer �lms, Journal of Applied Physics,Volume 115, Issue 11, 21 March 2014, Article number 114301

2827. Hu, C.-C., Yang, W., Tsai, Y.-T., Chau, Y.-F. Gap enhancementand transmittance spectra of a periodic bowtie nanoanten-na array buried in a silica substrate, (2014) Optics Commu-nications, 324 pp. 227-233.

2826. Lee, S.H., Jamison, A.C., Ho�man, D.M., Jacobson, A.J., Lee,T.R. Preparation and characterization of polymeric thin �lmscontaining gold nanoshells via electrostatic layer-by-layerself-assembly, (2014) Thin Solid Films, 558 pp. 200-207.

2825. Wu, J., Wang, Z.M. Droplet epitaxy for advanced optoelec-tronic materials and devices, (2014) Journal of Physics D:Applied Physics, 47 (17), art. no. 173001

2824. Xuan, Y., Duan, H., Li, Q. Enhancement of solar energy ab-sorption using a plasmonic nano�uid based on TiO2/Agcomposite nanoparticles, (2014) RSC Advances, 4 (31) pp.16206-16213.

2823. Lazzari, R., Jupille, J., Cavallotti, R., Simonsen, I. Model-freeunraveling of supported nanoparticles plasmon resonancemodes, (2014) Journal of Physical Chemistry C, 118 (13) pp.7032-7048.

2822. Pamies, R., Cifre, J.G.H., Espin, V.F., Collado-Gonzalez, M.,Banos, F.G.D., De La Torre, J.G. Aggregation behaviour ofgold nanoparticles in saline aqueous media, (2014) Journalof Nanoparticle Research, 16 (4), art. no. 2376

2821. Raza, S; Stenger, N; Kadkhodazadeh, S; Fischer, SV; Kos-tesha, N; Jauho, AP; Burrows, A; Wubs, M; Mortensen, NABlueshi� of the surface plasmon resonance in silver nano-particles studied with EELS, NANOPHOTONICS, 2 (2):131-138;10.1515/nanoph-2012-0032 2013

2820. Malmstrom, J., Travas-Sejdic, J. Block copolymers for proteinordering, Journal of Applied Polymer ScienceVolume 131,Issue 14, 15 July 2014, Article number 40360

2819. Lee, K., Hahn, R., Schmuki, P. Photocatalytic H2 productionon self-decorated Au nanoparticles/TiO2 nanotubes undervisible light, Electrochemistry Communications Volume 43,June 2014, Pages 105-108

2818. Kargar, Z., Lary, Z.A., Anbaraki, A. Systematic calculation ofnuclear level density parameter, Iranian Journal of PhysicsResearch Volume 13, Issue 3, 2014, Pages 289-295

2817. Bansal, A; Verma, SS Tailoring LSPR-Based Absorption andScattering E�ciencies of Semiconductor-Coated Au na-noshells, PLASMONICS, 9 (2):335-341; 10.1007/s11468-013-9629-4 APR 2014

2816. Ji, A; Sharma, RP; Kumari, A; Pathak, NK Numerical Simu-lation of Solar Cell Plasmonics for Small and Large MetalNano Clusters Using Discrete Dipole Approximation, PLAS-MONICS, 9 (2):291-297; 10.1007/s11468-013-9622-y APR2014


2815. Lazzari, R; Simonsen, I; Jupille, J Interfacial Susceptibi-lities in Nanoplasmonics via Inversion of Fresnel Coef-�cients, PLASMONICS, 9 (2):261-272; 10.1007/s11468-013-9619-6 APR 2014

2814. Stoenescu, S; Truong, VV; Packirisamy, M Dichroic OpticalProperties of Uniaxially Oriented Gold Nanorods in Poly-mer Films, PLASMONICS, 9 (2):299-307; 10.1007/s11468-013-9623-x APR 2014

2813. Sanz, J.M., Ortiz, D., Alcaraz de la Osa, R., Saiz, J.M., Gon-zalez, F., Brown, A.S., Losurdo, M., Everitt, H.O., Moreno, F.Metals for UV plasmonics, Optics InfoBase Conference Pa-pers 2014, Workshop on Optical Plasmonic Materials, OPM2014; Messe Berlin, Berlin; Germany; 18 March 2014 through20 March 2014; Code 105022

2812. Goncalves, M.R. Plasmonic nanoparticles: Fabrication, si-mulation and experiments, Journal of Physics D: AppliedPhysics Volume 47, Issue 21, 30 May 2014, Article number213001

2811. Fardad, S., Salandrino, A., Heinrich, M., Zhang, P., Chen, Z.,Christodoulides, D.N Plasmonic resonant solitons in metallicnanosuspensions, Nano Letters Volume 14, Issue 5, 14 May2014, Pages 2498-2504

2810. Lounis, S.D., Runnerstrom, E.L., Llordes, A., Milliron, D.J. De-fect chemistry and Plasmon physics of colloidal metal oxideNanocrystals, Journal of Physical Chemistry Letters Volume5, Issue 9, 1 May 2014, Pages 1564-1574

2809. Zhang, Q., Xiao, J.J. , Wang, S.L. Optical characteristics asso-ciated with magnetic resonance in toroidal metamaterialsof vertically coupled plasmonic nanodisks, Journal of theOptical Society of America B: Optical Physics Volume 31,Issue 5, 1 May 2014, Pages 1103-1108

2808. Mattox, T.M., Bergerud, A., Agrawal, A., Milliron, D.J. In�uen-ce of shape on the surface plasmon resonance of tungstenbronze nanocrystals, Chemistry of Materials Volume 26, Is-sue 5, 11 March 2014, Pages 1779-1784

2807. Deng, Y., Shi, H., Ming, H., Liu, G., Xi, Z In�uence of the inter-action between two Ag nanoparticles on optical propertiesof Ag/PGMEA nanocomposite materials, Journal of ModernOptics Volume 61, Issue 4, 23 February 2014, Pages 271-275

2806. Pathak, N.K. , Ji, A., Sharma, R.P. Tunable Properties of Surfa-ce Plasmon Resonances: The In�uence of Core-Shell Thick-ness and Dielectric Environment, Plasmonics Volume 9, Is-sue 3, June 2014, Pages 651-657

2805. Kumar, K.V.A., Sajna, M.S., Thomas, V., Joseph, C., Unnikrish-nan, N.V. Plasmonic and Energy Studies of Ag Nanoparticlesin Silica-Titania Hosts, Plasmonics Volume 9, Issue 3, June2014, Pages 631-636

2804. Krishnan, A. , Das, S., Krishna, S.R., Khan, M.Z.A Multilayernanoparticle arrays for broad spectrum absorption enhan-cement in thin �lm solar cells, Optics Express Volume 22,Issue SUPPL. 3, 2014, Pages A800-A811

2803. Bansal, A. , Verma, S.S Simulated study of plasmoniccoupling in noble bimetallic alloy nanosphere arrays, AIPAdvances Volume 4, Issue 5, May 2014, Article number057104

2802. Horikoshi, S., Matsumoto, N, Omata, Y., Kato, T. Growth ofAu nanoparticle �lms and the e�ect of nanoparticle shapeon plasmon peak wavelength, Journal of Applied Physics,Volume 115, Issue 19, 21 May 2014, Article number 193506

2801. Feng, X. , Zhang, Y., Yan, Z., Ma, Y., Shen, Q., Liu, X., Fan, Q.,Wang, L., Huang, W. Synthesis of polyaniline/Au compositenanotubes and their high performance in the detection ofNADH, Journal of Solid State Electrochemistry Volume 18,Issue 6, June 2014, Pages 1717-1723

2800. Hsu, KC; Chen, DH Microwave-assisted green synthesis ofAg/reduced graphene oxide nanocomposite as a surface-enhanced Raman scattering substrate with high uniformity,NANOSCALE RESEARCH LETTERS, 9 10.1186/1556-276X-9-193 APR 28 2014

2799. Horikoshi, S, Matsumoto, N., Omata, Y., Kato, T. Growth ofAu nanoparticle �lms and the e�ect of nanoparticle shapeon plasmon peak wavelength, Journal of Applied Physics115 (19), 193506 (2014)

2798. Pathak, N.K. , Ji, A., Sharma, R.P. Study of e�ciency enhan-cement in layered geometry of excitonic-plasmonic solarcell, Applied Physics A: Materials Science and ProcessingVolume 115, Issue 4, June 2014, Pages 1445-1450

2797. Lama, P. , Suslov, A., Walser, A.D., Dorsinville, R. Plasmonassisted enhanced nonlinear refraction of monodispersedsilver nanoparticles and their tunability, Optics Express 22,41792, Pages 14014-14021, (2014)

2796. Panizon, E., Bochicchio, D., Rossi, G., Ferrando, R. Tuningthe structure of nanoparticles by small concentrations ofimpurities, Chemistry of Materials 26, Issue 11, 10 June 2014,Pages 3354-3356

2795. Jain, P., Arun, P. Localized surface plasmon resonance inSnS:Ag nano-composite �lms, Journal of Applied Physics115, Issue 20, 28 May 2014, Article number 204512

2794. Battie, Y., Resano-Garcia, A., Chaoui, N., Zhang, Y., En Na-ciri, A. Extended Maxwell-Garnett-Mie formulation appliedto size dispersion of metallic nanoparticles embedded inhost liquid matrix, Journal of Chemical Physics 140, Issue 4,2014, Article number 044705


2793. Koleva, M.E. , Nedyalkov, N.N., Atanasov, P.A. E�ect of theplasmon-exciton coupling on the optical response of aZnO/Ag/ZnO nanocomposite, Journal of Physics: Conferen-ce Series Volume 514, Issue 1, 2014, Article number 01203118th International Summer School on Vacuum, Electron andIon Technologies, VEIT 2013; Sozopol; United Kingdom; 7October 2013 through 11 October 2013; Code 105664

2792. Terentyuk, G.S., Maksimova, I.L., Dikht, N.I., Terentyuk, A.G.,Khlebtsov, B.N., Khlebtsov, N.G., Tuchin, V.V. Cancer lasertherapy using gold nanoparticles, Lasers for Medical Appli-cations: Diagnostics, Therapy and Surgery September 2013,Pages 659-703

2791. Badawy, S.M. Green synthesis and characterisations of an-tibacterial silver-polyvinyl alcohol nanocomposite �lms forwound dressing , Green Processing and Synthesis 3, Issue3, 1 June 2014, Pages 229-234

2790. Li, JB; Wu, WL; Han, C; Zhang, SJ; Zhou, HY; Guo, JW Aggrega-tion behavior of pH- and thermo-responsive block copoly-mer protected gold nanoparticles, COLLOID AND POLYMERSCIENCE, 292 (7):1657-1664; 10.1007/s00396-014-3225-9JUL 2014

2789. Tian, XD; Zhou, YD; Thota, S; Zou, SL; Zhao, J Plasmo-nic Coupling in Single Silver Nanosphere Assemblies byPolarization-Dependent Dark-Field Scattering Spectroscopy,JOURNAL OF PHYSICAL CHEMISTRY C, 118 (25):13801-13808;10.1021/jp503505x JUN 26 2014

2788. Klimov, V; Guo, GY; Pikhota, M Plasmon Resonances in Me-tal Nanoparticles with Sharp Edges and Vertices: A MaterialIndependent Approach, JOURNAL OF PHYSICAL CHEMISTRYC, 118 (24):13052-13058; 10.1021/jp412349f JUN 19 2014

2787. Meier, DC; Cavicchi, RE Forming spherical gold nanopar-ticles from polymorphic nanoparticles using a single la-ser pulse, JOURNAL OF NANOPARTICLE RESEARCH, 16 (7):1-7;10.1007/s11051-014-2460-9 JUN 12 2014

2786. Lee, K ; Hahn, R ; Schmuki, P Photocatalytic H-2 productionon self-decorated Au nanoparticles/TiO2 nanotubes undervisible light, ELECTROCHEMISTRY COMMUNICATIONS 43 Pa-ges: 105-108, DOI: 10.1016/j.elecom.2014.04.002, JUN 2014

2785. Wang, Q., Cui, X., Guan, W., Zhang, L., Fan, X., Shi, Z., Zheng,W. Shape-dependent catalytic activity of oxygen reductionreaction (ORR) on silver nanodecahedra and nanocubes,Journal of Power Sources Volume 269, 10 December 2014,Pages 152-157

2784. Ishikawa, Y., Yao, H. Surface magnetoplasmons in silver na-noparticles: Apparent magnetic-�eld enhancement mani-fested by simultaneous deconvolution of UV-vis absorptionand MCD spectra, Chemical Physics Letters Volume 609, 5August 2014, Pages 93-97

2783. Wang, H. , Vial, A. Tunability of LSPR using gold nano-particles embedded in a liquid crystal cell, Journal of Quan-titative Spectroscopy and Radiative Transfer Volume 146,October 2014, Pages 492-498

2782. Daneshfar, N Temperature dependence of the op-tical characteristics and surface plasmon resonanceof core-shell nanoparticles, PHYSICS OF PLASMAS, 21(6):10.1063/1.4880595 JUN 2014

2781. Shiohara, A., Langer, J., Polavarapu, L., Liz-Marzan, L.M. So-lution processed polydimethylsiloxane/gold nanostar �exi-ble substrates for plasmonic sensing, Nanoscale, Volume 6,Issue 16, 21 August 2014, Pages 9817-9823

2780. Ajith, R., Mathew, V., Arun, P. Surface plasmon resonance ofdumbbell nanostructure, Physica Scripta Volume 89, Issue8, 1 August 2014, Article number 085501

2779. Singh, A., Chernenko, T., Amiji, M. Theranostic applicationsof plasmonic nanosystems, ACS Symposium Series Volume1113, 26 November 2012, Pages 383-413

2778. Wang, Q., Cui, X., Guan, W., Zhang, L., Fan, X., Shi, Z., Zheng,W. Shape-dependent catalytic activity of oxygen reductionreaction (ORR) on silver nanodecahedra and nanocubes,Journal of Power Sources Volume 269, 10 December 2014,Pages 152-157

2777. Antropova, T., Girsova, M., An�mova, I., Drozdova, I., Polya-kova, I., Vedishcheva, N. Structure and spectral propertiesof the photochromic quartz-like glasses activated by silverhalides, Journal of Non-Crystalline Solids, Volume 401, 1 Oc-tober 2014, Pages 139-141

2776. Yuan, P., Ma, R., Guan, Z., Gao, N., Xu, Q.-H. Tuning two-photon photoluminescence of gold nanoparticle aggregateswith DNA and its application as turn-on photoluminescenceprobe for DNA sequence detection, ACS Applied Materialsand Interfaces Volume 6, Issue 15, 13 August 2014, Pages13149-13156

2775. Navas, M.P. , Soni, R.K. Laser generated Ag and Ag-Au com-posite nanoparticles for refractive index sensor, AppliedPhysics A: Materials Science and Processing Volume 116,Issue 3, September 2014, Pages 879-886

2774. Chander, N., Khan, A.F., Thouti, E., Sardana, S.K., Chandra-sekhar, P.S., Dutta, V., Komarala, V.K. Size and concentratione�ects of gold nanoparticles on optical and electrical pro-perties of plasmonic dye sensitized solar cells, Solar EnergyVolume 109, November 2014, Pages 11-23

2773. Du, J., Zhu, B., Peng, X., Chen, X Optical reading of contami-nants in aqueous media based on gold nanoparticles, SmallVolume 10, Issue 17, 10 September 2014, Pages 3461-3479


2772. de Leon, YP; Pichardo-Molina, JL; Ochoa, NA Growth Kine-tics of Concave Nanocubes Studied by Optical CoherenceTomography, PLASMONICS, 9 (4):907-915; 10.1007/s11468-014-9696-1 AUG 2014

2771. Soomro, R.A., Nafady, A., Sirajuddin, Memon, N., Sherazi,T.H., Kalwar, N.H. L-cysteine protected copper nanoparticlesas colorimetric sensor for mercuric ions, Talanta Volume130, 1 December 2014, Pages 415-422

2770. Lee, Y., Abasaki, M., Portela, A., Delaunay, J.-J. E�ectivelight concentration in gold short nanosphere chain on pla-tinum mirror for surface-enhanced Raman scattering, Ap-plied Physics Letters Volume 105, Issue 12, 22 September2014, Article number 121114

2769. Bisio, F; Zaccaria, RP; Moroni, R; Maidecchi, G; Alabastri,A; Gonella, G; Giglia, A; Andol�, L; Nannarone, S; Mattera,L; Canepa, M Pushing the High-Energy Limit of Plasmonics,ACS NANO, 8 (9):9239-9247; 10.1021/nn503035b SEP 2014

2768. Deschaume, O; De Roo, B; Van Bael, MJ; Locquet, JP; VanHaesendonck, C; Bartic, C Synthesis and Properties of GoldNanoparticle Arrays Self-Organized on Surface-DepositedLysozyme Amyloid Sca�olds, CHEMISTRY OF MATERIALS, 26(18):5383-5393; 10.1021/cm502652t SEP 23 2014

2767. Hsu, KC; Chen, DH Green synthesis and synergistic catalytice�ect ofAg/reduced graphene oxide nanocomposite, NA-NOSCALE RESEARCH LETTERS 9, Article Number: 484, DOI:10.1186/1556-276X-9-484 Published: SEP 11 2014

2766. Lee, D., Jang, D.-J. Charge-carrier relaxation dynamics ofpoly(3-hexylthiophene)-coated gold hybrid nanoparticles,Polymer, Volume 55, Issue 21, 9 October 2014, Pages 5469-5476

2765. Lee, H., Kwak, J.-A., Jang, D.-J. Laser-induced fabrication ofhollow platinum nanospheres for enhanced catalytic perfor-mances, Journal of Physical Chemistry C Volume 118, Issue39, 2 October 2014, Pages 22792-22798

2764. Ghanaatshoar, M., Moradi, M., Tohidi, P. Surface plasmonresonance enhancement of the magneto-optical Kerr e�ectin Cu/Co/Ag/SnO2 structure, EPJ Applied Physics Volume 68,Issue 1, 1 October 2014, Article number 10402

2763. Amendola, V., Meneghetti, M., Stener, M., Guo, Y., Chen, S.,Crespo, P., Garcıa, M.A., Hernando, A., Pengo, P., Pasquato,L. Physico-Chemical Characteristics of Gold Nanoparticles,Comprehensive Analytical Chemistry Volume 66, 2014, Pa-ges 81-12

2762. Adhyaksa, GWP; Baek, SW; Lee, GI; Lee, DK; Lee, JY; Kang,JK Coupled Near- and Far-Field Scattering in Silver Na-noparticles for High-E�ciency, Stable, and Thin Plasmo-nic Dye-Sensitized Solar Cells, CHEMSUSCHEM, 7 (9):2461-2468; 10.1002/cssc.201402146 SEP 2014

2761. Huang, F; Zhou, JC; Xu, J; Wang, YS Reversible self-assemblyof MxS (M = Cu, Ag) nanocrystals through ligand exchange,CRYSTENGCOMM, 16 (40):9478-9481; 10.1039/c4ce00646a2014

2760. Deng, W; Goldys, EM Chemical sensing with nanoparti-cles as optical reporters: from noble metal nanoparticlesto quantum dots and upconverting nanoparticles, ANALYST,139 (21):5321-5334; 10.1039/c4an01272k 2014

2759. Zhang, P; Li, SB; Liu, CH; Wei, XB; Wu, ZM; Jiang, YD; Chen, ZNear-infrared optical absorption enhanced in black siliconvia Ag nanoparticle-induced localized surface plasmon, NA-NOSCALE RESEARCH LETTERS, 9 10.1186/1556-276X-9-519SEP 22 2014

2758. Grigorchuk, N.I. Sensitivity of surface plasmon resonancesin spheroidal metal nanoparticles, European Physical Jour-nal B Volume 87, Issue 10, 1 October 2014, Article numberb140571

2757. Zhu, SM; Fan, CZ; Wang, JQ; He, JN; Liang, EJ Surface-enhanced Raman scattering of 4-mercaptobenzoic acidand hemoglobin adsorbed on self-assembled Ag mo-nolayer �lms with di�erent shapes, APPLIED PHYSICSA-MATERIALS SCIENCE & PROCESSING, 117 (3):1075-1083;10.1007/s00339-014-8548-3 NOV 2014

2756. Alsawa�a, M; Wahbeh, M; Truong, VV E�ect of symmetrybreaking and substrate on the optical properties of silversphere-like nanoparticles in di�erent surrounding media,Proceedings of SPIE - The International Society for OpticalEngineering 9288, 92881A, 2014, 9288 10.1117/12.20861492014

2755. Berco, D; Hu, CK A Spherical Harmonic Transform Spec-tral Analysis of a Localized Surface Plasmon on a GoldNano Shell, JOURNAL OF COMPUTATIONAL CHEMISTRY, 35(30):2225-2230; 10.1002/jcc.23741 NOV 15 2014

2754. Li, W.-Y., Chen, F.-Y E�ects of shape and dopant on struc-tural, optical absorption, Raman, and vibrational propertiesof silver and copper quantum clusters: A density functio-nal theory study, Chinese Physics B Volume 23, Issue 11, 1November 2014, Article number 117103

2753. Huang, F., Zhou, J., Xu, J., Wang, Y Reversible self-assemblyof MxS (M = Cu, Ag) nanocrystals through ligand exchan-ge, CrystEngComm Volume 16, Issue 40, 28 October 2014,Pages 9478-9481

2752. Jung, H., Koo, B., Kim, J.-Y., Kim, T., Son, H.J., Kim, B., Kim,J.Y., Lee, D.-K., Kim, H., Cho, J., Ko, M.J. Enhanced photovol-taic properties and long-term stability in plasmonic dye-sensitized solar cells via noncorrosive redox mediator, ACSApplied Materials and Interfaces, Volume 6, Issue 21, 12 No-vember 2014, Pages 19191-19200


2751. Giannini, R., Hafner, C., Lo�er, J.F. Axis-selective excitationof gold nanoparticle resonances, Journal of the Optical So-ciety of America B: Optical Physics, Volume 31, Issue 11, 1November 2014, Pages 2621-2627

2750. Xiao, G., Man, S., Shi, W., Feng, J. Surface plasmon reso-nance and surface-enhanced Raman scattering activity ofSiO2-Au core-cap nanostructure arrays, Applied Physics A:Materials Science and Processing Volume 117, Issue 4, 18November 2014, Pages 1907-1914

2749. Wan, M.L. , Sun, X.J., Song, Y.L., Li, Y., Zhou, F.Q. Plasmonicanalogue of electromagnetically induced transparency in aT-shaped metallic nanohole array and its sensing perfor-mance, Modern Physics Letters B Volume 28, Issue 29, 20November 2014, Article number 1450231

2748. Bansal, A. , Verma, S.S. Optical response of noble metalalloy nanostructures, Physics Letters, Section A: General,Atomic and Solid State Physics Volume 379, Issue 3, 23 Ja-nuary 2015, Pages 163-169

2747. Tsuboi, A., Nakamura, K., Kobayashi, N. Multicolor elec-trochromism showing three primary color states (cyan-magenta-yellow) based on size- and shape-controlled silvernanoparticles, Chemistry of Materials Volume 26, Issue 22,25 November 2014, Pages 6477-6485

2746. Liow, C., Meng, F., Chen, X., Li, S. Dependence of plasmonicproperties on electron densities for various coupled Au na-nostructures, Journal of Physical Chemistry C Volume 118,Issue 47, 26 November 2014, Pages 27531-27538

2745. Bottomley, A., Ianoul, A. Re�ection and absorption spectraof silver nanocubes on a dielectric substrate: Anisotropy,angle, and polarization dependencies, Journal of PhysicalChemistry C Volume 118, Issue 47, 26 November 2014, Pages27509-27515

2744. Furtado, LAD; Gomez-Malagon, LA Simulation of the Linearand Nonlinear Optical Properties of Colloids Containing Me-tallic Core-Dielectric Shell Nanoellipsoids, PLASMONICS, 9(6):1377-1389; 10.1007/s11468-014-9753-9 DEC 2014

2743. Li, CH; Jamison, AC; Rittikulsittichai, S; Lee, TC; Lee, TR InSitu Growth of Hollow Gold-Silver Nanoshells within PorousSilica O�ers Tunable Plasmonic Extinctions and EnhancedColloidal Stability, ACS APPLIED MATERIALS & INTERFACES, 6(22):19943-19950; 10.1021/am505424w NOV 26 2014

2742. Schlesinger, M., Giese, M., Blusch, L.K., Hamad, W.Y., Ma-clachlan, M.J. Chiral nematic cellulose-gold nanoparticlecomposites from mesoporous photonic cellulose, ChemicalCommunications Volume 51, Issue 3, 11 January 2015, Pages530-533

2741. Xia, Z., Song, T. , Sun, J., Lee, S.-T., Sun, B. Plasmonic en-hancement in hybrid organic/Si heterojunction solar cellsenabled by embedded gold nanoparticles, Applied PhysicsLetters Volume 105, Issue 24, 15 December 2014, Articlenumber 241110

2740. Tyshetskiy, Y. Vladimirov, S.V., Kompaneets, R. A new typeof surface waves in a fully degenerate quantum plasma,Physics of Plasmas Volume 21, Issue 12, 1 December 2014,Article number 122114

2739. Dubrovin, V.D., Ignatiev, A.I., Nevedomskii, V.M., Nikonorov,N.V., Sidorov, A.I., Tsekhomskii, V.A. The in�uence of synthe-sis conditions and ultraviolet irradiation on the morphologyand concentration of silver nanocrystals in photothermo-refractive glasses, Glass Technology: European Journal ofGlass Science and Technology Part A Volume 55, Issue 6, 1December 2014, Pages 191-195

2738. Barcaro, G., Sementa, L., Fortunelli, A., Stener, M. Opticalproperties of Pt and Ag-Pt nanoclusters from TDDFT cal-culations: Plasmon suppression by pt poisoning, Journal ofPhysical Chemistry C Volume 118, Issue 48, 4 December2014, Pages 28101-28108

2737. Yoo, S., Kim, J. E�ect of the additional anode layers on theabsorption enhancement characteristic of plasmonic orga-nic solar cells, Japanese Journal of Applied Physics Volume53, Issue 12, 1 December 2014, Article number 122302

2736. Wu, J; Li, W; Hajisalem, G; Lukach, A; Kumacheva, E; Hof,F; Gordon, R Trace cancer biomarker quanti�cation usingpolystyrene-functionalized gold nanorods, BIOMEDICAL OP-TICS EXPRESS, 5 (12):4101-4107; 10.1364/BOE.5.004101 DEC1 2014

2735. Claro, F; Fuchs, R; Robles, P; Rojas, R The e�ect of dissipationon the torque and force experienced by nanoparticles in anAC �eld, INTERNATIONAL JOURNAL OF MODERN PHYSICS B,29 (1):10.1142/S0217979214502403 JAN 10 2015

2734. Ji, A. , Sharma, R.P., Kumari, A., Pathak, N.K. Numerical si-mulation of solar cell plasmonics for small and large metalnano clusters using discrete dipole approximation, Plasmo-nics Volume 9, Issue 2, 1 January 2014, Pages 291-297

2733. Stoenescu, S., Truong, V.-V., Packirisamy, M. Dichroic opticalproperties of uniaxially oriented gold nanorods in polymer�lms, Plasmonics Volume 9, Issue 2, 1 January 2014, Pages299-307

2732. In, S., Mason, D.R., Lee, H., Jung, M., Lee, C., Park, N. En-hanced light trapping and power conversion e�ciency inultrathin plasmonic organic solar cells: A coupled optical-electrical multiphysics study on the e�ect of nanoparticlegeometry, ACS Photonics Volume 2, Issue 1, 21 January 2015,Pages 78-85


2731. Liu, DL; Li, CC; Zhou, F; Zhang, T; Zhang, HH; Li, XY;Duan, GT; Cai, WP; Li, Y Rapid Synthesis of Monodisper-se Au Nanospheres through a Laser Irradiation-InducedShape Conversion, Self-Assembly and Their Electromag-netic Coupling SERS Enhancement, SCIENTIFIC REPORTS, 510.1038/srep07686 JAN 8 2015

2730. Macias-Montero, M., Pelaez, R.J., Rico, V.J., Saghi, Z., Mid-gley, P., Afonso, C.N., Gonzalez-Elipe, A.R., Borras, A. Lasertreatment of Ag at ZnO nanorods as long-life-span SERSsurfaces, ACS Applied Materials and Interfaces Volume 7,Issue 4, 4 February 2015, Pages 2331-2339

2729. Deng, Y., Ming, H., Liu, G., Shi, H. Size dependence of simu-lated optical properties for Cu nanocubes, European Phy-sical Journal D Volume 69, Issue 2, February 2015, Articlenumber 37

2728. Ben Aissa, M.A., Tremblay, B., Andrieux-Ledier, A., (...),Raoua�, N., Courty, A. Copper nanoparticles of well-controlled size and shape: A new advance in synthesis andself-organization, 2015 Nanoscale 7 (7), pp. 3189-3195

2727. Hyun, J.Y., Yun, C., Kim, K.H., Kim, W.H., Jeon, S.-W., Im,W.B., Kim, J.P. Control of the plasmon resonance from poly-dispersed silver nanoparticles, Japanese Journal of AppliedPhysics Volume 54, Issue 2, 1 February 2015, Article number02BD02

2726. Zhao, C., Zhu, Y., Su, Y., (...), Xiang, R., Tang, Z. Tailoring plas-mon resonances in aluminium nanoparticle arrays fabrica-ted using anodic aluminium oxide, 2015 Advanced OpticalMaterials 3 (2), pp. 248-256

2725. Fernandez, R., Gutierrez, J., Eceiza, A., Tercjak, A. Hybrid ma-terials based on azopolymer and sol-gel synthesized silver-containing titanium oxide nanoparticles with photoinducedbirefringence, 2015 Source of the DocumentRSC Advances5 (20), pp. 15740-15748

2724. Can-Uc, B., Rangel-Rojo, R., Marquez, H., Rodriguez-Fernandez, L., Oliver, A. Nanoparticle containing chan-nel waveguides produced by a multi-energy masked ion-implantation process, 2015 Optics Express 23 (3), pp. 3176-3185

2723. Rosenkrantz, E., Arnon, S. Local surface plasmon tuning foroptical devices, 2015 IEEE Photonics Technology Letters 27(6), 7012098, pp. 669-672

2722. Barabadi, H., Honary, S., Ebrahimi, P., (...), Alizadeh, A.,Naghibi, F. Microbial mediated preparation, characteriza-tion and optimization of gold nanoparticles, 2014 BrazilianJournal of Microbiology 45 (4), pp. 1493-1501

2721. Gao, F., Yang, Y., Wang, T. Preparation of porous TiO2/Agheterostructure �lms with enhanced photocatalytic activity,2015 Chemical Engineering Journal 270, pp. 418-427

2720. Bisio, F., Gonella, G., Maidecchi, G., (...), Giglia, A., Canepa,M. Broadband plasmonic response of self-organized alumi-nium nanowire arrays, 2015 Journal of Physics D: AppliedPhysics 48 (18), 184003

2719. Nidya, M., Umadevi, M., Sankar, P., Philip, R., Rajkumar,B.J.M. L-Phenylalanine functionalized silver nanoparticles:Photocatalytic and nonlinear optical applications, 2015 Op-tical Materials 42, pp. 152-159

2718. Ong, H.R., Khan, M.M.R., Ramli, R., (...), Xi, S., Yunus, R.M.Facile synthesis of copper nanoparticles in glycerol at roomtemperature: Formation mechanism, 2015 RSC Advances 5(31), pp. 24544-24549

2717. Kuppusamy, P., Ichwan, S.J.A., Parine, N.R., (...), Maniam, G.P.,Govindan, N. Intracellular biosynthesis of Au and Ag nano-particles using ethanolic extract of Brassica oleracea L. andstudies on their physicochemical and biological properties,2015 Journal of Environmental Sciences (China) 29, pp. 151-157

2716. Chinh, V.D., Trung, N.Q. Synthesis and optical properties ofcolloidal Au-Ag alloy nanoparticles, 2015 International Jour-nal of Nanotechnology 12 (5-7), pp. 515-524

2715. Cuevas, R., Duran, N., Diez, M.C., Tortella, G.R., Rubilar, O.Extracellular biosynthesis of copper and copper oxide na-noparticles by Stereum hirsutum, a native white-rot fungusfrom chilean forests, 2015 Journal of Nanomaterials 2015,789089

2714. Bouhadoun, S., Guillard, C., Dapozze, F., F; Singh, S; Amans,D, Boucle, J., Herlin-Boime, N. One step synthesis of N-doped and Au-loaded TiO2 nanoparticles by laser pyroly-sis: Application in photocatalysis, 2015 Applied Catalysis B:Environmental 174-175, pp. 367-375

2713. Franco, D.F., SantAna, A.C., De Oliveira, L.F.C., Silva, M.A.P.The Sb2O3 redox route to obtain copper nanoparticles inglasses with plasmonic properties, 2015 Journal of MaterialsChemistry C 3 (15), pp. 3803-3808

2712. Resano-Garcia, A., Battie, Y., En Naciri, A., Akil, S., Chaoui, N.Experimental and theoretical determination of the plasmo-nic responses and shape distribution of colloidal metallicnanoparticles, 2015 Journal of Chemical Physics 142 (13),134108

2711. Cardoso-Avila, P.E., Pichardo-Molina, J.L., Krishna, C.M.,Castro-Beltran, R. Photochemical transformation of silvernanoparticles by combining blue and green irradiation,2015 Journal of Nanoparticle Research 17 (3)


2710. Kuisma, M., Sakko, A., Rossi, T.P., Larsen, AH; Enkovaa-ra, J, Lehtovaara, L., Rantala, T.T. Localized surface plas-mon resonance in silver nanoparticles: Atomistic �rst-principles time-dependent density-functional theory calcu-lations, 2015 Physical Review B - Condensed Matter andMaterials Physics 91 (11), 115431

2709. Gupta, R.K., Dubey, M., Li, P.Z., Xu, Q., Pandey, D.S. Size-controlled synthesis of Ag nanoparticles functionalized byheteroleptic dipyrrinato complexes having meso- pyridylsubstituents and their catalytic applications, 2015 InorganicChemistry 54 (6), pp. 2500-2511

2708. Zhou, N., Lopez-Puente, V., Wang, Q., (...), Pastoriza-Santos,I., Xu, Q.-H. Plasmon-enhanced light harvesting: Applica-tions in enhanced photocatalysis, photodynamic therapyand photovoltaics, 2015 RSC Advances 5 (37), pp. 29076-29097

2707. Lee, D., Yoon, S. Gold nanocube-nanosphere dimers: Pre-paration, plasmon coupling, and surface-enhanced ramanscattering, 2015 Journal of Physical Chemistry C 119 (14), pp.7873-7882

2706. Wan, M., Yuan, S., Dai, K., Song, Y., Zhou, F. Electromag-netically induced transparency in a planar complementarymetamaterial and its sensing performance, 2015 Optik 126(5), pp. 541-544

2705. Sun, Y., Jiang, L., Zhong, L., Jiang, Y., Chen, X. Towards activeplasmonic response devices, 2015 Nano Research 8 (2), pp.406-417

2704. Nedyalkov, N., Nikov, R., Koleva, M., (...), Delaporte, P., Gro-jo, D. Nanoparticle-decorated ceramic as substrate in sur-face enhanced Raman spectroscopy, 2015 Applied SurfaceScience 336, pp. 16-20

2703. Borges, J., Kubart, T., Kumar, S., (...), Cavaleiro, A., Vaz, F.Microstructural evolution of Au/TiO2 nanocomposite �lms:The in�uence of Au concentration and thermal annealing,2015 Thin Solid Films 580, pp. 77-88

2702. Giannini, R., Hafner, C.V., Lo�er, J.F. Scaling behavior of in-dividual nanoparticle plasmon resonances, 2015 Journal ofPhysical Chemistry C 119 (11), pp. 6138-6147

2701. Manai, L., Rezgui, B.D., Bou, A., (...), Palais, O., Bessais, B. En-hanced light trapping using plasmonic nanoparticles, 2015Journal of Physics: Conference Series 596 (1), 012002

2700. De Sio, L., Placido, T., Comparelli, R., (...), Tabiryan, N., Bun-ning, T.J. Next-generation thermo-plasmonic technologiesand plasmonic nanoparticles in optoelectronics, 2015 Pro-gress in Quantum Electronics 41, pp. 23-70

2699. Liu, M., Xue, X., Ghosh, C., (...), Swihart, M.T., Prasad, P.N.Room-temperature synthesis of covellite nanoplatelets withbroadly tunable localized surface plasmon resonance, 2015Chemistry of Materials 27 (7), pp. 2584-2590

2698. Soomro, RA; Nafady, A; Sirajuddin; Sherazi, STH; Kalwar, NH;Shah, MR; Hallam, KR Catalytic Reductive Degradation ofMethyl Orange Using Air Resilient Copper Nanostructures,JOURNAL OF NANOMATERIALS, 10.1155/2015/136164 2015

2697. Monti, A; Alu, A; Toscano, A; Bilotti, F Optical invisibilitythrough metasurfaces made of plasmonic nanoparticles,JOURNAL OF APPLIED PHYSICS, 117 (12):10.1063/1.4916257MAR 28 2015

2696. Bothra, S., Kumar, R., Pati, R.K., (...), Choi, H.-J., Sahoo, S.K.Virgin silver nanoparticles as colorimetric nanoprobe for si-multaneous detection of iodide and bromide ion in aqueousmedium, 2015 Spectrochimica Acta - Part A: Molecular andBiomolecular Spectroscopy Volume 149, 5 October 2015,Pages 122-126

2695. Emam, A.N., Mohamed, M.B., Girgis, E., Rao, K.V. Hy-brid magnetic-plasmonic nanocomposite: Embedding co-balt clusters in gold nanorods, 2015 RSC Advances 5 (44),pp. 34696-34703

2694. Hung, W.H., Lai, S.N., Lo, A.Y. Synthesis of strong light scat-tering absorber of TiO2-CMK-3/Ag for photocatalytic wa-ter splitting under visible light irradiation, 2015 ACS AppliedMaterials and Interfaces 7 (16), pp. 8412-8418

2693. Zopes, D., Hegemann, C., Schlafer, J., Tyrra, W., Mathur, S.Single-source precursors for alloyed gold-silver nanocrys-tals - A molecular metallurgy approach 2015 Inorganic Che-mistry 54 (8), pp. 3781-3787

2692. Soomro, R.A., Nafady, A., Sirajuddin, (...), Shah, M.R., Ha-llam, K.R. Catalytic reductive degradation of methyl orangeusing air resilient copper nanostructures, 2015 Journal ofNanomaterials 2015, 136164

2691. Chahal, R.P., Mahendia, S., Tomar, A.K., Kumar, S. UV irradia-ted PVA-Ag nanocomposites for optical applications, 2015Applied Surface Science 343, pp. 160-165

2690. Claro, F., Fuchs, R., Robles, P., Rojas, R. The e�ect of dissipa-tion on the torque and force experienced by nanoparticlesin an AC �eld, 2015 International Journal of Modern PhysicsB 29 (1), 1450240

2689. Navas, MP; Soni, RK Laser-Generated Bimetallic Ag-Au andAg-Cu Core-Shell Nanoparticles for Refractive Index Sen-sing, PLASMONICS, 10 (3):681-690; 10.1007/s11468-014-9854-5 JUN 2015


2688. Zhu, Y., Yang, S., Cai, J., Meng, M., Li, X. A facile synthe-sis of AgxAu1-x/TiO2 photocatalysts with tunable surfaceplasmon resonance (SPR) frequency used for RhB photode-gradation, 2015 Materials Letters 154, pp. 163-166

2687. Kumar, B., Kaur, G., Rai, S.B. Study of laser ablated coppernanoparticles in di�erent liquids and their e�ect on opticalproperties of Tb3+ in PVA, 2015 Indian Journal of Physics89 (6), pp. 629-634

2686. Amendola, V., Saija, R., Marago, O.M., Iati, M.A. Superiorplasmon absorption in iron-doped gold nanoparticles, 2015Nanoscale 7 (19), pp. 8782-8792

2685. Zhou, N., Ye, C., Polavarapu, L., Xu, Q.-H. Controlled prepa-ration of Au/Ag/SnO2 core-shell nanoparticles using a pho-tochemical method and applications in LSPR based sensing,2015 Nanoscale 7 (19), pp. 9025-9032

2684. Desai, D., Datta, M. Green synthesis of silver antimicrobialsfor its potential application in control of nosocomial infec-tions, 2015 Asian Journal of Pharmaceutical and Clinical Re-search 8 (3), pp. 219-223

2683. Al-Azawi, MA; Bidin, N; Abdullah, M; Ali, AK; Hassoon, KI;Khaldoon, NA; Al-Asedy, HJ Surface plasmon resonance ef-fects of gold colloids on optical properties of N719 dye inethanol, JOURNAL OF OPTOELECTRONICS AND ADVANCEDMATERIALS, 17 (3-4):264-269; MAR-APR 2015

2682. Verma, S., Rao, B.T., Bhartiya, S., Sathe, V., Kukreja, L.M.Growth temperature dependent surface plasmon resonan-ces of densely packed gold nanoparticles’�lms and their ro-le in surface enhanced Raman scattering of Rhodamine6G,2015 Applied Surface Science 346, pp. 379-387

2681. Lin, GJ; Zhang, Q; Lin, XY; Zhao, DF; Jia, R; Gao, NK; Zuo,ZY; Xu, XG; Liu, D Enhanced photoluminescence of ga-llium phosphide by surface plasmon resonances of me-tallic nanoparticles, RSC ADVANCES, 5 (60):48275-48280;10.1039/c5ra07368e 2015

2680. Zhang, F., Zhu, J., Li, J.-J., Zhao, J.-W. A promising direct vi-sualization of an Au at Ag nanorod-based colorimetric sen-sor for trace detection of alpha-fetoprotein, (2015) Journalof Materials Chemistry C, 3 (23), pp. 6035-6045.

2679. Alcaraz De La Osa, R., Sanz, J.M., Barreda, A.I., Saiz, J.M.,Gonzalez, F., Everitt, H.O., Moreno, F. Rhodium Tripod Starsfor UV Plasmonics, (2015) Journal of Physical Chemistry C,119 (22), pp. 12572-12580.

2678. Napoles-Duarte, J.M., Chavez-Rojo, M.A., Fuentes-Montero,M.E., Rodriguez-Valdez, L.M., Garcia-Llamas, R., Gaspar-Armenta, J.A. Surface plasmon resonances in Drude me-tal cylinders: Radius dependence and quality factor, (2015)Journal of Optics (United Kingdom), 17 (6), art. no. 065003.

2677. Cuenya, BR; Behafarid, F Nanocatalysis: size- andshape-dependent chemisorption and catalytic reac-tivity, SURFACE SCIENCE REPORTS, 70 (2):135-187;10.1016/j.surfrep.2015.01.001 JUN 2015

2676. Nair, G; Singh, HJ; Ghosh, A Tuning the chiro-plasmonicresponse using high refractive index-dielectric templates,JOURNAL OF MATERIALS CHEMISTRY C, 3 (26):6831-6835;10.1039/c5tc00922g 2015

2675. Hou, H; Chen, LM; He, HL; Chen, LZ; Zhao, ZL; Jin, YD Fine-tuning the LSPR response of gold nanorod-polyaniline core-shell nanoparticles with high photothermal e�ciency forcancer cell ablation, JOURNAL OF MATERIALS CHEMISTRY B,3 (26):5189-5196; 10.1039/c5tb00556f 2015

2674. Ji, A; Sharma, R; Pathak, H; Pathak, NK; Sharma, RP Nume-rical simulation of plasmonic light trapping in thin-�lm Sisolar cells: surface coverage e�ect, JOURNAL OF PHYSICS D-APPLIED PHYSICS, 48 (27):10.1088/0022-3727/48/27/275101JUL 15 2015

2673. Li, JF; Tian, ZQ Shell-Isolated Nanoparticle-Enhanced Ra-man Spectroscopy (SHINERS), Li, Jian-Feng; Tian, Zhong-Qun, Edited by: Ozaki Y; Kneipp K; Aroca R, FRONTIERSOF SURFACE-ENHANCED RAMAN SCATTERING: SINGLE NANO-PARTICLES AND SINGLE CELLS, 163-192; 2014

2672. Gergely-Fulop, E; Nagy, N; Deak, A Langmuir-Blodgett Filmsof Gold Nanorods with Di�erent Silica Shell Thicknes-ses, PERIODICA POLYTECHNICA-CHEMICAL ENGINEERING, 59(2):104-110; 10.3311/PPch.7596 2015

2671. Tsai, MS; Liu, TK; Tsen, CY; Ting, CC Polarization sensi-tivity of light di�raction for periodic array of anisotro-pic gold nanoparticles, APPLIED PHYSICS LETTERS, 106(24):10.1063/1.4922808 JUN 15 2015

2670. Sardana, SK; Chava, VSN; Komarala, VK Morphology andoptical properties of sputter deposited silver nanoparti-cles on plain, textured and antire�ection layer coatedtextured silicon, APPLIED SURFACE SCIENCE, 347 651-656;10.1016/j.apsusc.2015.04.145 AUG 30 2015

2669. Erola, M.O.A., Philip, A., Ahmed, T., Suvanto, S., Pakkanen,T.T. Fabrication of AU- and Ag-SiO2 inverse opals havingboth localized surface plasmon resonance and Bragg dif-fraction, 2015 Journal of Solid State Chemistry 230, 18964,pp. 209-217

2668. Streltsov, D.R., Mailyan, K.A., Gusev, A.V., (...), Chvalun, S.N.,Ivanov, D.A. Structure and optical properties of thin poly(p-xylylene) - Silver nanocomposite �lms prepared by low-temperature vapor deposition polymerization, 2015 Poly-mer (United Kingdom) 71, pp. 60-69


2667. Monti, A., Alu, A., Toscano, A., Bilotti, F. Optical invisibility th-rough metasurfaces made of plasmonic nanoparticles, 2015Journal of Applied Physics 117 (12), 123103

2666. Diaz-Egea, C., Abargues, R., Martinez-Pastor, J.P., (...), vanAken, P.A., Molina, S.I. High spatial resolution mapping ofindividual and collective localized surface plasmon reso-nance modes of silver nanoparticle aggregates: correlationto optical measurements, 2015 Nanoscale Research Letters10 (1), 310

2665. Goldmann, C., Lazzari, R., Paquez, X., (...), Chaneac, C., Por-tehault, D. Charge Transfer at Hybrid Interfaces: Plasmo-nics of Aromatic Thiol-Capped Gold Nanoparticles, 2015 ACSNano 9 (7), pp. 7572-7582

2664. Lacerda, A.M., Larrosa, I., Dunn, S. Plasmon enhanced vi-sible light photocatalysis for TiO2 supported Pd nanoparti-cles, 2015 Source of the Nanoscale 7 (29), pp. 12331-12335

2663. Giangregorio, MM; Jiao, W; Bianco, GV; Capezzuto, P; Brown,AS; Bruno, G; Losurdo, M Insights into the e�ects of me-tal nanostructuring and oxidation on the work function andcharge transfer of metal/graphene hybrids, NANOSCALE, 7(30):12868-12877; 10.1039/c5nr02610e 2015

2662. Lee, MS; Kim, NW; Lee, JE; Lim, DW; Suh, W; Kim, HT; Park,JW; Jeong, JH Micelle-templated dendritic gold nanoparticlesfor enhanced cellular delivery of siRNA, MACROMOLECULARRESEARCH, 23 (7):670-677; 10.1007/s13233-015-3091-4 JUL2015

2661. Yu, BX; Woo, J; Kong, M; O’Carroll, DM Mode-speci�c studyof nanoparticle-mediated optical interactions in an absor-ber/metal thin �lm system, NANOSCALE, 7 (31):13196-13206;10.1039/c5nr02217g 2015

2660. Cesca, T; Michieli, N; Kalinic, B; Sanchez-Espinoza, A; Rat-tin, M; Russo, V; Mattarello, V; Scian, C; Mazzoldi, P; Mat-tei, G Nonlinear absorption tuning by composition controlin bimetallic plasmonic nanoprism arrays, NANOSCALE, 7(29):12411-12418; 10.1039/c5nr01715g 2015

2659. Tiu, BDB; Advincula, RC Plasmonics and templated systemsfor bioapplications, RENDICONTI LINCEI-SCIENZE FISICHE ENATURALI, 26 143-160; 2 10.1007/s12210-015-0416-3 AUG2015

2658. Pathak, H; Ji, A; Sharma, R; Sharma, RP Optical Propertiesof Metal Subwavelength Structures for Realistic Geometriesin a Dielectric Matrix Using DDA: an Error Analysis, PLAS-MONICS, 10 (4):783-789; 10.1007/s11468-014-9865-2 AUG2015

2657. Siabi-Garjan, A; Savaloni, H Extinction Spectra and ElectricNear-Field Distribution of Mn Nano-Rod Based Sculptured

Thin Films: Experimental and Discrete Dipole ApproximationResults, PLASMONICS, 10 (4):861-872; 10.1007/s11468-014-9873-2 AUG 2015

2656. Lovatel, R.H., Neves, R.M., Oliveira, G.R., (...), Carli, L.N.,Giovanela, M. Disinfection of biologically treated industrialwastewater using montmorillonite/alginate/nanosilver hy-brids, 2015 Journal of Water Process Engineering 7, pp. 273-279

2655. Ha, J.W. Enhanced photothermal signal in thiol-capped sin-gle gold nanoparticles, 2015 Bulletin of the Korean ChemicalSociety 36 (8), pp. 2154-2157

2654. Teodorescu, C.M. Image molecular dipoles in surface en-hanced Raman scattering, Physical Chemistry ChemicalPhysics Volume 17, Issue 33, 21 January 2015, Pages 21302-21314

2653. Deng, Y., Liu, G., Zhang, L., Ming, H. Far- and near-�eld opti-cal properties of Al nanorod by discrete dipole approxima-tion, 2015 Journal of Modern Optics 62 (15), pp. 1199-1203

2652. Tu, W., Zhou, Y., Li, H., Li, P., Zou, Z. Au atTiO2 yolk-shell ho-llow spheres for plasmon-induced photocatalytic reductionof CO2 to solar fuel via a local electromagnetic �eld, 2015Nanoscale 7 (34), pp. 14232-14236

2651. Alsawa�a, M; Wahbeh, M; Truong, VV Investigation of theValidity of the Universal Scaling Law on Linear Chainsof Silver Nanoparticles, JOURNAL OF NANOMATERIALS,10.1155/2015/983413 2015

2650. Chervinskii, S; Drevinskas, R; Karpov, DV; Beresna, M; Li-povskii, AA; Svirko, YP; Kazansky, PG Revealing the nano-particles aspect ratio in the glass-metal nanocompositesirradiated with femtosecond laser, SCIENTIFIC REPORTS, 510.1038/srep13746 SEP 8 2015

2649. Brazhe, NA; Evlyukhin, AB; Goodilin, EA; Semenova, AA; No-vikov, SM; Bozhevolnyi, SI; Chichkov, BN; Sarycheva, AS;Baizhumanov, AA; Nikelshparg, EI; Deev, LI; Maksimov, EG;Maksimov, GV; Sosnovtseva, O Probing cytochrome c in li-ving mitochondria with surface-enhanced Raman spectros-copy, SCIENTIFIC REPORTS, 5 10.1038/srep13793 SEP 8 2015

2648. Cogollo-Olivo, B.H., Seriani, N., Montoya, J.A. Unbiasedstructural search of small copper clusters within DFT, 2015Chemical Physics 461, pp. 20-24

2647. Smith, A.F., Weiner, R.G., Bower, M.M., Dragnea, B., Skraba-lak, S.E. Structure versus Composition: A Single-Particle In-vestigation of Plasmonic Bimetallic Nanocrystals, 2015 Jour-nal of Physical Chemistry C 119 (38), pp. 22114-22121

2646. Wan, A., Wang, T., Yin, T., (...), Shen, Z.X., Nijhuis, C.A.Plasmon-Modulated Photoluminescence of Single Gold Na-nobeams, 2015 ACS Photonics 2 (9), pp. 1348-1354


2645. Saylor, C., Novak, E., Debu, D., Herzog, J.B. Investigationof maximum optical enhancement in single gold nanowiresand triple nanowire arrays, 2015 Journal of Nanophotonics9 (1), 093053

2644. Kluczyk, K., Jacak, W. Damping-induced size e�ect in sur-face plasmon resonance in metallic nano-particles: Com-parison of RPA microscopic model with numerical �nite ele-ment simulation (COMSOL) and Mie approach, 2016 Journalof Quantitative Spectroscopy and Radiative Transfer 168,5072, pp. 78-88

2643. Mattox, T.M., Ye, X., Manthiram, K., Schuck, PJ, Alivisatos,A.P., Urban, J.J. Chemical Control of Plasmons in Metal Chal-cogenide and Metal Oxide Nanostructures, 2015 AdvancedMaterials 27 (38), pp. 5830-5837

2642. Diaz-Egea, C; Ben, T; Herrera, M; Hernandez, J; Pedrueza, E;Valdes, JL; Martinez-Pastor, JP; Attouchi, F; Mafhoud, Z; Step-han, O; Molina, SI Mapping the plasmonic response of goldnanoparticles embedded in TiO2 thin �lms, NANOTECH-NOLOGY, 26 (40):10.1088/0957-4484/26/40/405702 OCT 92015

2641. Islam, NU; Ahsan, F; Khan, I; Shah, MR; Shahid, M; Khan, MAGreen Synthesis and Biological Activities of Gold Nanopar-ticles Functionalized with Citrus reticulata, Citrus aurantium,Citrus sinensis and Citrus grandis, JOURNAL OF THE CHEMI-CAL SOCIETY OF PAKISTAN, 37 (4):721-731; AUG 2015

2640. Bae, G.-T., Aikens, C.M. Time-Dependent Density Functio-nal Theory Studies of Optical Properties of Au Nanopar-ticles: Octahedra, Truncated Octahedra, and Icosahedra,2015 Journal of Physical Chemistry C 119 (40), pp. 23127-23137

2639. Battie, Y., Resano-Garcia, A., En Naciri, A., Akil, S., Chaoui,N. Determination of morphological characteristics of meta-llic nanoparticles based on modi�ed Maxwell-Garnett �ttingof optical responses, 2015 Applied Physics Letters 107 (14),143104

2638. Bansal, A; Sekhon, JS; Verma, SS Dimensional and com-positional dependent analysis of plasmonic bimetallic na-norods, JOURNAL OF MODERN OPTICS, 62 (19):1665-1673;10.1080/09500340.2015.1063725 2015

2637. Lin, LL; Wang, Q Microplasma: A New Generation of Tech-nology for Functional Nanomaterial Synthesis, PLASMACHEMISTRY AND PLASMA PROCESSING, 35 (6):925-962;10.1007/s11090-015-9640-y NOV 2015

2636. Patel, AN; Martinez-Marrades, A; Brasiliense, V; Koshelev, D;Besbes, M; Kuszelewicz, R; Combellas, C; Tessier, G; Kanou�,F Deciphering the Elementary Steps of Transport-Reaction

Processes at Individual Ag Nanoparticles by 3D Super lo-calization Microscopy, NANO LETTERS, 15 (10):6454-6463;10.1021/acs.nanolett.5b02921 OCT 2015

2635. Guidelli, E.J., Ramos, A.P., Ba�a, O. Silver nanoparticle �lmsfor metal enhanced luminescence: Toward developmentof plasmonic radiation detectors for medical applications,2016 Sensors and Actuators, B: Chemical 224, pp. 248-255

2634. Vartia, O.S., Yla-Oijala, P., Markkanen, J., Puupponen, S;Seppala, A; Sihvola, A., Ala-Nissila, T. On the applicability ofdiscrete dipole approximation for plasmonic particles, 2016Journal of Quantitative Spectroscopy and Radiative Transfer169, pp. 23-35

2633. Xu, H., Hajisalem, G., Steeves, G.M., Gordon, R., Choi, B.C.Nanorod surface plasmon enhancement of laser-inducedultrafast demagnetization, 2015 Scienti�c Reports 5, 15933

2632. Goel, P., Singh, J.P. Fabrication of silver nanorods embeddedin PDMS �lm and its application for strain sensing, 2015Journal of Physics D: Applied Physics 48 (44), 445303

2631. Vita, F., Boccia, A., Marrani, A.G., (...), Arduini, A., Secchi, A.Calix[4]arene-Functionalised Silver Nanoparticles as Hostsfor Pyridinium-Loaded Gold Nanoparticles as Guests, 2015Chemistry - A European Journal 21 (43), pp. 15428-15438

2630. Kumar, A., Vyas, G., Bhatt, M., Bhatt, S., Paul, P. Silver nano-particle based highly selective and sensitive solvatochro-matic sensor for colorimetric detection of 1,4-dioxane inaqueous media, 2015 Chemical Communications 51 (88), pp.15936-15939

2629. Tsai, M.-S., Liu, T.-K., Tsen, C.-Y., Ting, C.-C. Polarization sen-sitivity of light di�raction for periodic array of anisotropicgold nanoparticles, 2015 Applied Physics Letters 106 (24),241107

2628. Munoz-Rosas, AL; Rodriguez-Gomez, A; Arenas-Alatorre, JA;Alonso-Huitron, JC Photoluminescence enhancement fromsilicon quantum dots located in the vicinity of a monolayerof gold nanoparticles, RSC ADVANCES, 5 (113):92923-92931;2015

2627. Attanayake, T., Premaratne, M., Agrawal, G.P. Characterizingthe Optical Response of Symmetric Hemispherical Nano-dimers, 2015 Plasmonics 10 (6), pp. 1453-1466

2626. Bakhti, S., Destouches, N., Tishchenko, A.V. Singular Repre-sentation of Plasmon Resonance Modes to Optimize theNear- and Far-Field Properties of Metal Nanoparticles, 2015Plasmonics 10 (6), pp. 1391-1399

2625. Pathak, N.K., Pandey, G.K., Ji, A., Sharma, R.P. Study of LightExtinction and Surface Plasmon Resonances of Metal Na-nocluster: a Comparison Between Coated and Non-coatedNanogeometry, 2015 Plasmonics 10 (6), pp. 1597-1606


2624. Raza, So., Kadkhodazadeh, S., Christensen, T., (...), Morten-sen, N.A., Stenger, N. Multipole plasmons and their disap-pearance in few-nanometre silver nanoparticles, 2015 Na-ture Communications 6, 8788

2623. Signoretto, M., Suarez, I., Chirvony, V.S., (...), Rodriguez-Canto, P.J., Martinez-Pastor, J. Polymer waveguide couplersbased on metal nanoparticle-polymer nanocomposites,2015 Nanotechnology 26 (47), 475201

2622. Akhlaghi, M. Optimization of the plasmonic nano-rods-based absorption coe�cient using TLBO algorithm, 2015Optik 126 (24), pp. 5033-5037

2621. DAgostino, S Size and shape dependence of localized sur-face plasmon resonances, (Book Chapter) 2013 Handbookof Molecular Plasmonics pp. 137-174

2620. Constantin, D. Why the aspect ratio? Shape equivalence forthe extinction spectra of gold nanoparticles, 2015 EuropeanPhysical Journal E 38 (11), 116, pp. 1-6

2619. Zarpelon, F; Galiotto, D; Aguzzoli, C; Carli, LN; Figueroa, CA;Baumvol, IJR; Machado, G; Crespo, JD; Giovanela, M Removalof coliform bacteria from industrial wastewaters using pol-yelectrolytes/silver nanoparticles self-assembled thin �lms2016 Journal of Environmental Chemical Engineering 4 (1),pp. 137-146

2618. De Antoni, L.O., Loguercio, L.F., Rodrigues, M.R.F., (...), Ferrei-ra, J., Leite Santos, M.J. E�ect of gold nanoparticles on thestructural and optical stability of poly (3-hexylthiophene),2016 Polymer Degradation and Stability 123, pp. 62-68

2617. Liu, C., Lv, J., Wang, F., (...), Liu, Q., Chu, P.K. Analysis ofLocalized Surface Plasmon Resonance in Ag/ITO/CdS/SiO2Multilayered Nanostructured Composite, 2015 Nano10 (8),1550117

2616. Sinha, SN; Paul, D; Halder, N; Sengupta, D; Patra, SK Greensynthesis of silver nanoparticles using fresh water greenalga Pithophora oedogonia (Mont.) Wittrock and evalua-tion of their antibacterial activity, APPLIED NANOSCIENCE,5 (6):703-709; 10.1007/s13204-014-0366-6 AUG 2015

2615. Tsuboi, A., Nakamura, K., Kobayashi, N. Chromatic controlof multicolor electrochromic device with localized surfaceplasmon resonance of silver nanoparticles by voltage-stepmethod, 2016 Solar Energy Materials and Solar Cells 145,pp. 16-25

2614. Heisler, F., Babich, E., Scherbak, S., (...), Samusev, A., Lipovs-kii, A.A. Resonant Optical Properties of Single Out-Di�usedSilver Nanoislands, 2015 Journal of Physical Chemistry C 119(47), pp. 26692-26697

2613. Purbia, R., Paria, S. Yolk/shell nanoparticles: Classi�cations,synthesis, properties, and applications, 2015 Nanoscale 7(47), pp. 19789-19873

2612. Bakhti, S; Destouches, N; Tishchenko, AV Singular Repre-sentation of Plasmon Resonance Modes to Optimize theNear- and Far-Field Properties of Metal Nanoparticles, PLAS-MONICS, 10 (6):1391-1399; 10.1007/s11468-015-9937-y DEC2015

2611. Cogollo-Olivo, BH; Seriani, N; Montoya, JA Unbiased struc-tural search of small copper clusters within DFT, CHEMICALPHYSICS, 461 20-24; 10.1016/j.chemphys.2015.08.023 NOV5 2015

2610. Pathak, NK; Pandey, GK; Ji, A; Sharma, RP Study ofLight Extinction and Surface Plasmon Resonances of Me-tal Nanocluster: a Comparison Between Coated and Non-coated Nanogeometry, PLASMONICS, 10 (6):1597-1606;10.1007/s11468-015-9978-2 DEC 2015

2609. Obradovic, M; Di Vece, M; Asselberghs, I; Grandjean, D;Clays, K; Lievens, P Photoluminescence as a Probe ofthe Electrical Charge Dependence of Gold Nanoparticles,JOURNAL OF NANOSCIENCE AND NANOTECHNOLOGY, 15(12):9766-9771; 10.1166/jnn.2015.10794 DEC 2015

2608. Sharvani, S; Upadhayaya, K; Kumari, G; Narayana, C; Shi-vaprasad, SM Nano-morphology induced additional sur-face plasmon resonance enhancement of SERS sensiti-vity in Ag/GaN nanowall network, NANOTECHNOLOGY, 26(46):10.1088/0957-4484/26/46/465701 NOV 20 2015

2607. Nedyalkov, N.N., Nakajima, Y., Takami, A., (...), Karashanova,D., Terakawa, M. Laser induced morphological and opticalproperties changes in Au doped aluminum oxide and siliconoxide thin �lms, 2016 Optics and Laser Technology 79, pp.179-187

2606. Tsuboi, A., Nakamura, K., Kobayashi, N. Chromatic controlof multicolor electrochromic device with localized surfaceplasmon resonance of silver nanoparticles by voltage-stepmethod, 2016 Solar Energy Materials and Solar Cells 145,pp. 16-25

2605. Gokhale, S. E�ects of engineered nanomaterials releasedinto the atmosphere, 2016 Journal of Hazardous, Toxic, andRadioactive Waste 20 (1), B4015005

2604. Kong, D., Jiang, L., Drucker, J. Interpreting plasmonic respon-se of epitaxial Ag/Si(100) island ensembles, 2015 Journal ofApplied Physics 118 (21), 213103

2603. Khan, M.K., MacLachlan, M.J. Polymer and Carbon Sphereswith an Embedded Shell of Plasmonic Gold Nanoparticles,2015 ACS Macro Letters 4 (12), pp. 1351-1355


2602. Aoki, P.H.B., Constantino, C.J.L., Oliveira, O.N., Aroca, R.F.Plasmonics in Analytical Spectroscopy, 2015 ACS Sympo-sium Series 1215, pp. 269-301

2601. Lai, C.-F., Wang, Y.-C., Wu, C.-L., Zeng, J.-Y., Lin, C.-F. Prepa-ration of a colloidal photonic crystal containing CuO nano-particles with tunable structural colors, 2015 RSC Advances5 (127), pp. 105200-105205

2600. Bhargava, A., Jain, N., Barathi, L.M., (...), Yun, Y.-S., Panwar, J.Synthesis, characterization and mechanistic insights of my-cogenic iron oxide nanoparticles, (Book Chapter) 2014 Na-notechnology for Sustainable Development, First Edition

2599. Lee, JE; Chung, K; Lee, J; Shin, K; Kim, DH In Situ Studies ofSurface-Plasmon-Resonance-Coupling Sensor Mediated byStimuli-Sensitive Polymer Linker, ADVANCED FUNCTIONALMATERIALS, 25 (43):6716-6724; 10.1002/adfm.201503340NOV 18 2015

2598. Sarkar, M; Bryche, JF; Moreau, J; Besbes, M; Barbillon, G;Bartenlian, B; Canva, M Generalized analytical model basedon harmonic coupling for hybrid plasmonic modes: compa-rison with numerical and experimental results, OPTICS EX-PRESS, 23 (21):27376-27390; 10.1364/OE.23.027376 OCT 192015

2597. Gokhale, S. E�ects of engineered nanomaterials releasedinto the atmosphere, 2016 Journal of Hazardous, Toxic, andRadioactive Waste 20 (1), B4015005

2596. Hulkoti, N.I., Taranath, T.C. E�ect of various physico-chemical factors on synthesis of biogenic silver nanopar-ticles using leaf extract of cananga odorata (Lam.) Hook.F.& Thomson. and its anti-bacterial e�ect, 2015 Source of theDocumentInternational Journal of Pharmaceutical SciencesReview and Research 35 (2), pp. 213-218

2595. Caro, C., Gamez, F., Sayagues, M.J., Polvillo, R., Royo, J.L.AgACTiO2 nanoparticles with microbiocide properties undervisible light, 2015 Materials Research Express 2 (5), 055002

2594. Cacciato, G; Ru�no, F; Zimbone, M; Reitano, R; Privitera, V;Grimaldi, MG Au thin �lms nano-structuration on polycrys-talline anatase and rutile TiO2 substrates towards photo-catalytic applications, MATERIALS SCIENCE IN SEMICONDUC-TOR PROCESSING, 42 40-44; SI 10.1016/j.mssp.2015.07.0741 FEB 2016

2593. Leong, KY; Ong, HC; Amer, NH; Norazrina, MJ; Risby, MS;Ahmad, KZK An overview on current application of na-no�uids in solar thermal collector and its challenges, RE-NEWABLE & SUSTAINABLE ENERGY REVIEWS, 53 1092-1105;10.1016/j.rser.2015.09.060 JAN 2016

2592. Ahmed, H., Doran, J., McCormack, S.J. Increased short-circuitcurrent density and external quantum e�ciency of siliconand dye sensitised solar cells through plasmonic lumines-cent down-shi�ing layers, 2016 Solar Energy 126, pp. 146-155

2591. Bastus, N.G., Piella, J., Puntes, V. Quantifying the Sensitivityof Multipolar (Dipolar, Quadrupolar, and Octapolar) SurfacePlasmon Resonances in Silver Nanoparticles: The E�ect ofSize, Composition, and Surface Coating, 2016 Langmuir 32(1), pp. 290-300

2590. Roychoudhury, P., Ghosh, S., Pal, R. Cyanobacteria mediatedgreen synthesis of gold-silver nanoalloy, 2016 Journal ofPlant Biochemistry and Biotechnology 25 (1), pp. 73-78

2589. Lee, D., Lee, J., Song, K.-H., Rhee, H., Jang, D.-J. Forma-tion and decay of charge carriers in aggregate nano�bersconsisting of poly(3-hexylthiophene)-coated gold nanopar-ticles, 2016 Physical Chemistry Chemical Physics 18 (3), pp.2087-2096

2588. Lee, J.-E., Chung, K., Lee, J., Shin, K., Kim, D.H. In Situ Stu-dies of Surface-Plasmon-Resonance-Coupling Sensor Me-diated by Stimuli-Sensitive Polymer Linker, 2015 AdvancedFunctional Materials 25 (43), pp. 6716-6724

2587. Caro, C., Sayagues, M.J., Franco, V., (...), Zaderenko, P.,G·mez, F. A hybrid silver-magnetite detector based on sur-face enhanced Raman scattering for di�erentiating organiccompounds, 2016 Sensors and Actuators, B: Chemical 228,pp. 124-133

2586. Tuersun, P. Simulated localized surface plasmon spectra ofsingle gold and silver nanobars, 2016 Optik 127 (6), pp.3466-3470

2585. Jahn, M; Patze, S; Hidi, IJ; Knipper, R; Radu, AI; Muhlig, A;Yuksel, S; Peksa, V; Weber, K; Mayerhofer, T; Cialla-May,D; Popp, J Plasmonic nanostructures for surface enhancedspectroscopic methods, 2016 Analyst 141 (3), pp. 756-793

2584. He, Z., Yuan, X., Wang, Q., (...), Zhang, H., Yang, H. Multicolo-red Electrochromic Device from the Reversible Aggregationand Decentralization of Silver Nanoparticles, 2016 Advan-ced Optical Materials 4 (1), pp. 106-111

2583. Chirico, G., Pallavicini, P., Borzenkov, M. Physical propertiesof gold nanostars, 2015 Gold Nanostars: Synthesis, Proper-ties and Biomedical Application pp. 25-42

2582. Teich, E.G., Van Anders, G., Klotsa, D., Dshemuchadse, J.,Glotzer, S.C. Clusters of polyhedra in spherical con�nement,2016 Proceedings of the National Academy of Sciences ofthe United States of America 113 (6), pp. E669-E678


2581. Wang, Y., Ge, C.-W., Zou, Y.-F., (...), Yu, Y.-Q., Luo, L.-B.Plasmonic Indium Nanoparticle-Induced High-PerformancePhotoswitch for Blue Light Detection, 2016 Advanced OpticalMaterials 4 (2), pp. 291-296

2580. Alsaif, M.M.Y.A., Field, M.R., Daeneke, T., T; Chrimes, AF;Zhang, W; Carey, BJ; Berean, KJ; Walia, S; van Embden,J; Zhang, BY; Latham, K; Kalantar-Zadeh, K., Ou, J.Z. Ex-foliation solvent dependent plasmon resonances in two-dimensional sub-stoichiometric molybdenum oxide nano-�akes, A2016 ACS Applied Materials and Interfaces 8 (5),pp. 3482-3493

2579. Chen, F., Yao, D. Realizing of plasmon Fano resonance with ametal nanowall moving along MIM waveguide, 2016 OpticsCommunications 369, pp. 72-78

2578. Pescaglini, A., Secco, E., Martin, A., Cammi, D; Ronning, C;Cantarero, A; Garro, N., Iacopino, D. Non-resonant Ramanspectroscopy of individual ZnO nanowires via Au nanorodsurface plasmons, 2016 Journal of Materials Chemistry C 4(8), pp. 1651-1657

2577. Madhavi, V; Kondaiah, P; Shaik, H; Raoa, GM Phase de-pendent photocatalytic activity of Ag loaded TiO2 �lmsunder sun light, APPLIED SURFACE SCIENCE, 364 732-739;10.1016/j.apsusc.2015.12.133 FEB 28 2016

2576. Recordati, C; De Maglie, M; Bianchessi, S; Argentiere, S; Ce-lla, C; Mattiello, S; Cubadda, F; Aureli, F; DAmato, M; Raggi,A; Lenardi, C; Milani, P; Scanziani, E Tissue distribution andacute toxicity of silver a�er single intravenous administra-tion in mice: nano-speci�c and size-dependent e�ects, PAR-TICLE AND FIBRE TOXICOLOGY, 13 (1), 12 2016

2575. Daneshfar, N; Moradi, M An analytical solution forlight scattering by metallic cylindrical nanoparticles withcore-shell structure, MODERN PHYSICS LETTERS B, 30(5):10.1142/S021798491650041X FEB 20 2016

2574. Chen, F., Yao, D. Realizing of plasmon Fano resonance with ametal nanowall moving along MIM waveguide, 2016 OpticsCommunications 369, pp. 72-78

2573. Edison, TNJI; Atchudan, R; Lee, YR Optical Sensor for Dis-solved Ammonia Through the Green Synthesis of Silver Na-noparticles by Fruit Extract of Terminalia chebula, JOURNALOF CLUSTER SCIENCE, 27 (2):683-690; 10.1007/s10876-016-0972-4 MAR 2016

2572. Garg, V; Sengar, BS; Awasthi, V; Aaryashree; Sharma,P; Mukherjee, C; Kumar, S; Mukherjee, S Localized sur-face plasmon resonance on Au nanoparticles: tuningand exploitation for performance enhancement in ul-trathin photovoltaics, RSC ADVANCES, 6 (31):26216-26226;10.1039/c5ra25575a 2016

2571. Bansal, A; Verma, SS Dimensional In�uence on Plas-monic Response of Trimetallic Nanorods, ADVANCEDMATERIALS AND RADIATION PHYSICS (AMRP-2015), 167510.1063/1.4929299 2015

2570. Biswas, S; Kole, AK; Tiwary, CS; Kumbhakar, P Obser-vation of Size-Dependent Electron-Phonon Scattering andTemperature-Dependent Photoluminescence Quenching inTriangular-Shaped Silver Nanoparticles, PLASMONICS, 11(2):593-600; 10.1007/s11468-015-0072-6 APR 2016

2569. Niklasson, GA; Lansaker, PC; Li, SY; Granqvist, CG Plas-monic thin �lms for application in improved chromogenicwindows, INERA CONFERENCE 2015: LIGHT IN NANOSCIEN-CE AND NANOTECHNOLOGY (LNN 2015), 682 10.1088/1742-6596/682/1/012003 2016 Book Series: Journal of PhysicsConference Series

2568. Phadke, P; Chawla, S Sui Generis Cerulean Fluo-rescence from YAG:Ce by Selective Plasmonic ModeCoupling with Silver Nanorods, PLASMONICS, 11 (2):395-402;10.1007/s11468-015-0061-9 APR 2016

2567. Zhao, ZY; Rossi, VAV; Baltrus, JP; Ohodnicki, PR; Carpen-ter, MA Ag Nanoparticles Supported on Yttria-Stabilized Zir-conia: A Synergistic System within Redox Environments,JOURNAL OF PHYSICAL CHEMISTRY C, 120 (9):5020-5032;10.1021/acs.jpcc.6b00189 MAR 10 2016

2566. Abdullah, OG; Tahir, DA; Saber, DR Optical Properties of theSynthesized Cr2S3 Nanoparticles Embedded in Polyvinyl Al-cohol, ARO-THE SCIENTIFIC JOURNAL OF KOYA UNIVERSITY,3 (1):45-49; MAY 2015


2564. Mu, HW; Lv, JW; Liu, ZT; Zheng, SJ; Yang, L; Sun, T; Liu, Q;Liu, C Optical properties of local surface plasmon resonan-ce in Ag/ITO sliced nanosphere by the discrete dipole ap-proximation, 2016 Applied Physics A: Materials Science andProcessing 122 (4), 419

2563. Zhang, ML; Xiang, HP; Zhang, X; Lu, G Quantum elec-trodynamics and plasmonic resonance of metallic nanos-tructures, JOURNAL OF PHYSICS-CONDENSED MATTER, 28(15):10.1088/0953-8984/28/15/155302 APR 20 2016

2562. Eisa, W.H., Al-Ashkar, E., El-Mossalamy, S.M., Ali, S.S.M. PVPinduce self-seeding process for growth of Au at Ag core atshell nanocomposites, 2016 Chemical Physics Letters 651,28-33


2561. Erwin, WR; Zarick, HF; Talbert, EM; Bardhan, R Light trap-ping in mesoporous solar cells with plasmonic nanostruc-tures, ENERGY & ENVIRONMENTAL SCIENCE, 9 (5):1577-1601;10.1039/c5ee03847b 2016

2560. Wang, L; Chen, R; Ren, ZF; Ge, CW; Liu, ZX; He, SJ; Yu, YQ;Wu, CY; Luo, LB Plasmonic silver nanosphere enhanced ZnSenanoribbon/Si heterojunction optoelectronic devices, 2016Nanotechnology 27 (21), 215202

2559. Trejo-Valdez, M., Sobral, H., Martinez-Gutierrez, H., Torres-Torres, C. Study of the electrical and nanosecond third ordernonlinear optical properties of ZnO �lms doped with Au andPt nanoparticles, 2016 Thin Solid Films 605, pp. 84-88

2558. Resano-Garcia, A., Battie, Y., Naciri, A.E., Chaoui, N. Interac-tion of a converging laser beam with a Ag colloidal solutionduring the ablation of a Ag target in water, 2016 Nanotech-nology 27 (21), 215705

2557. Carbo-Argibay, E., Mourdikoudis, S., Pastoriza-Santos, I.,Perez-Juste, J. Nanocolloids of Noble Metals (Book Chap-ter) 2016 Nanocolloids: A Meeting Point for Scientists andTechnologists pp. 37-73

2556. Lozanova, V., Todorov, R. Microstructure and optical pro-perties of thermally evaporated very thin silver �lms, 2015Bulgarian Chemical Communications 47, Pages 55-59

2555. Al-Azawi, M.A., Bidin, N., Abbas, K.N., Bououdina, M., Azzez,S.A. Broadband optical absorption enhancement of N719dye in ethanol by gold-silver alloy nanoparticles fabricatedunder laser ablation technique, 2016 Journal of Nanopho-tonics 10 (2), 026009

2554. De Farias, M.A., Do Carmo Goncalves, M. Synthesis and ap-plications of polystyrene-block-poly(N-vinyl-2-pyrrolidone)copolymers, 2016 Polimeros 26 (1) Pages 1-10

2553. Nikov, RG; Nedyalkov, NN; Atanasov, PA; Hirsch, D; Raus-chenbach, B; Grochowska, K; Sliwinski, G Characterizationof Ag nanostructures fabricated by laser-induced dewet-ting of thin �lms, APPLIED SURFACE SCIENCE, 374 36-41;10.1016/j.apsusc.2015.09.004 JUN 30 2016

2552. Yao, H., Shiratsu, T. Individual and collective modes of sur-face magnetoplasmon in thiolate-protected silver nanopar-ticles studied by MCD spectroscopy, 2016 Nanoscale 8 (21)11264-11274

2551. Bottomley, A., Prezgot, D., Coyle, J.P., Ianoul, A. Dynamicsof nanocubes embedding into polymer �lms investigated:Via spatially resolved plasmon modes, 2016 Nanoscale 8(21) 11168-11176

2550. Azarian, A., Babaei, F. Localized surface plasmons in faceto face dimer silver triangular prism nanoparticles, 2016Journal of Applied Physics 119 (20), 203103

2549. Anquillare, EL; Miller, OD; Hsu, CW; DeLacy, BG; Joannopou-los, JD; Johnson, SG; Soljacic, M E�cient, designable, andbroad-bandwidth optical extinction via aspect-ratio-tailoredsilver nanodisks, 2016 Optics Express 24 (10) 10806-10816

2548. Xing, Z., Zong, X., Butburee, T., (...), Bai, Y., Wang, L. Nanohy-brid materials of titania nanosheets and plasmonic gold na-noparticles for e�ective hydrogen evolution, 2016 AppliedCatalysis A: General 521, pp. 96-103

2547. He, XJ; Zhang, QF; Lu, GJ; Ying, GB; Wu, FM; Jiang, JX Tuna-ble ultrasensitive terahertz sensor based on complemen-tary graphene metamaterials, 2016 RSC Advances 6 (57),pp. 52212-52218

2546. Gezgin, SY; Kilic, HS; Kepceoglu, A; Bayir, S; Nalbantoglu, IE;Toprak, A, Plasmonic Tuning of Gold Doped Thin Films forLayers of Photovoltaic Devices, Edited by: Akkus B; OktemY; Yalcin LS; Mutlu RBC; Dogan GS, 9TH INTERNATIONAL PHY-SICS CONFERENCE OF THE BALKAN PHYSICAL UNION (BPU-9),1722 10.1063/1.4944228 2016

2545. Pathak, NK; Sharma, RP Study of Broadband Tunable Proper-ties of Surface Plasmon Resonances of Noble Metal Nano-particles Using Mie Scattering Theory: Plasmonic Perovski-te Interaction, PLASMONICS, 11 (3):713-719; 10.1007/s11468-015-0097-x JUN 2016

2544. Xu, Z., Liu, Y., Ren, F., Yang, F., Ma, D. Development of fun-ctional nanostructures and their applications in catalysisand solar cells, 2016 Coordination Chemistry Reviews 320-321, pp. 153-180

2543. Tsuzuki, T. Properties of nanoparticulate materials, (BookChapter) 2013, Nanotechnology Commercialisation, pp. 1-37

2542. Kim, J; Agrawal, A; Krieg, F; Bergerud, A; Milliron, DJ The In-terplay of Shape and Crystalline Anisotropies in PlasmonicSemiconductor Nanocrystals, NANO LETTERS, 16 (6):3879-3884; 2016

2541. Khafaji, M., Vossoughi, M., Hormozi-Nezhad, M.R., (...),Borrnert, F., Irajizad, A. A new bifunctional hybrid nanos-tructure as an active platform for photothermal therapy andMR imaging, 2016 Scienti�c Reports 6, 27847

2540. Poorani, G., Rao, A.P., Singaravelu, G., Manickam, E. Plas-monic phototherapy using gold nanospheres and gold na-norods irradiated with light-emitting diodes, 2016 Journalof Nanophotonics10 (2), 026027

2539. Jeeyoung Lee and Myeongkyu Lee Laser-Induced Conver-sion of Au Powders to Highly Stable Nanoparticles with aNarrow Size Distribution, J. Phys. Chem. C, 2016, 120 (24),pp 13256?13262


2538. Pathak, H; Pathak, NK; Ji, A; Roopak, S; Pandey, GK; Shar-ma, RP Broadband Scattering With Strong Electric FieldCoupling Between Metal Nanostructures Using DDA Si-mulation: Role of Di�erent Organic Environments, IEEEJOURNAL OF PHOTOVOLTAICS, 6 (4):940-951; 10.1109/JPHO-TOV.2016.2559780 JUL 2016

2537. Lee, D., Kim, J.K., Jang, D.-J. Excited-state dynamics of anamphiphilic diblock copolymer self-assembled from mixedsolvents, 2016 Polymer (United Kingdom) 99, pp. 122-129

2536. Song, JE; Park, JH; La, JA; Park, S; Jeong, MK; Cho, EC Useof �uorescence signals generated by elastic scattering un-der monochromatic incident light for determining the scat-tering e�ciencies of various plasmonic nanoparticles, 2016Analyst 141 (15), pp. 4632-4639

2535. Barnes, W.L. Particle plasmons: Why shape matters, 2016American Journal of Physics 84 (8), pp. 593-601

2534. Sudheer; Porwal, S; Bhartiya, S; Rao, BT; Tiwari, P; Srivasta-va, H; Sharma, TK; Rai, VN; Srivastava, AK; Naik, PA Di�rac-tion e�ciency of plasmonic gratings fabricated by electronbeam lithography using a silver halide �lm, 2016 Journal ofApplied Physics 120 (4), 043101

2533. Onodera, R., Tsuboi, A., Nakamura, K., Kobayashi, N. Colora-tion mechanisms of Ag deposition-based multicolor electro-chromic device investigated by morphology of Ag depositand its optical properties, 2016 Journal of the Society forInformation Display 24 (7), pp. 424-432

2532. Sardana, S.K., Komarala, V.K. Optical properties of hy-brid plasmonic structure on silicon using transparentconducting-silver nanoparticles-silicon dioxide layers: Therole of conducting oxide layer thickness in antire�ection,2016 Journal of Optics (United Kingdom) 18 (7), 075004

2531. Chen, X., Jensen, L. Understanding the shape e�ect on theplasmonic response of small ligand coated nanoparticles,2016 Journal of Optics (United Kingdom) 18 (7), 074009

2530. Fernandez-Valdes, D; Torres-Torres, C; Martinez-Gonzalez,CL; Trejo-Valdez, M; Hernandez-Gomez, LH; Torres-Martinez, RGyroscopic behavior exhibited by the opticalKerr e�ect in bimetallic Au?Pt nanoparticles suspended inethanol, 2016 Journal of Nanoparticle Research 18 (7), 204

2529. Castillo, C., Buono-Core, G., Manzur, C., (...), Cabello, G.,Chornik, B. Molybdenum trioxide thin �lms doped withgold nanoparticles grown by a sequential methodology:Photochemical Metal-Organic Deposition (PMOD) and DC-magnetron sputtering, 2016 Journal of the Chilean ChemicalSociety 61 (1), pp. 2816-2820

2528. Sikdar, D., Hasan, S.B., Urbakh, M., Edel, J.B., Kornyshev, A.A.Unravelling the optical responses of nanoplasmonic mirror-on-mirror metamaterials, 2016 Physical Chemistry Chemi-cal Physics 18 (30), pp. 20486-20498

2527. Chan, T.M., Levitin, Y.Y., Kryskiv, O.S., Vedernikova, I.A. Cha-racterization of Ag at Fe3O4 core-shell nanocomposites forbiomedical applications, 2015 Journal of Chemical and Phar-maceutical Research 7 (5), pp. 816-819

2526. Britto Hurtado, R.; Cortez-Valadez, M.; Ramirez-Rodriguez, L.P.; et al. Instant synthesis of gold nanoparticles at room tem-perature and SERS applications, PHYSICS LETTERS A 380,2658-2663 (2016)

2525. Inbakandan, D., Kumar, C., Bavanilatha, M., (...), Kirubaga-ran, R., Khan, S.A. Ultrasonic-assisted green synthesis of�ower like silver nanocolloids using marine sponge extractand its e�ect on oral bio�lm bacteria and oral cancer celllines, 2016 Microbial Pathogenesis 99, pp. 135-141

2524. Firdhouse, M.J., Lalitha, P. Biogenic silver nanoparticles:Synthesis, characterization and its potential against cancerinducing bacteria, 2016 Journal of Molecular Liquids 222,pp. 1041-1050

2523. Huang, Y.-L., Chang, W.S., Van Nguyen, C., (...), Hsu, Y.-J., Chu, Y.-H. Tunable photoelectrochemical performanceof Au/BiFeO3 heterostructure, 2016 Nanoscale 8 (34), pp.15795-15801

2522. Park, G.B., Singu, B.S., Hong, S.E., Yoon, K.R. Cyclodextrin-triazole derivative functionalized on Ag-SiO2 core-shell na-noparticles via click chemistry, 2016 Bulletin of the KoreanChemical Society 37 (9), pp. 1501-1508

2521. Abbass, A.E., Swart, H.C., Kroon, R.E. Use of ZnO:Tb down-conversion phosphor for Ag nanoparticle plasmon absor-ption using a He-Cd ultraviolet laser, 2016 Luminescencepp. 1182-1186

2520. Bakhti, S; Tishchenko, AV; Zambrana-Puyalto, X; Bonod, N;Dhuey, SD; Schuck, PJ; Cabrini, S; Alayoglu, S; Destouches,N Fano-like resonance emerging from magnetic and electricplasmon mode coupling in small arrays of gold particles,2016 Scienti�c Reports 6, 32061

2519. Prakash, J., Harris, R.A., Swart, H.C. Embedded plasmonicnanostructures: synthesis, fundamental aspects and theirsurface enhanced Raman scattering applications, 2016 In-ternational Reviews in Physical Chemistry 35 (3), pp. 353-398

2518. Djuhana, D., Farishi, S., Putra, M.H., (...), Harmoko, A., Han-dayani, W. The polarization and distance e�ect of the dou-ble sphere silver nanoparticles to local surface plasmon re-sonance using boundary element approximation, 2016 AIPConference Proceedings 1729, 020032


2517. Gezgin, S.Y., Kilic, H.?., Kepceoglu, A., (...), Nalbantoglu, I.E.,Toprak, A. Plasmonic tuning of gold doped thin �lms forlayers of photovoltaic devices, 2016 AIP Conference Pro-ceedings 1722, 200013

2516. Shrivas, K., Nirmalkar, N., Ghosale, A., Thakur, S.S., Shan-kar, R. Enhancement of plasmonic resonance through anexchange reaction on the surface of silver nanoparticles:Application to the highly selective detection of triazophospesticide in food and vegetable samples, 2016 RSC Advan-ces 6 (84), pp. 80739-80747

2515. Ellis, C.T., Tischler, J.G., Glembocki, O.J., (...), Chigrin, D.N.,Caldwell, J.D. Aspect-ratio driven evolution of high-order re-sonant modes and near-�eld distributions in localized surfa-ce phonon polariton nanostructures, 2016 Scienti�c Reports6, 32959

2514. Carrillo-Lopez, L.M., Soto-Hernandez, R.M., Zavaleta-Mancera, H.A., Vilchis-Nestor, A.R. Study of the Performanceof the Organic Extracts of Chenopodium ambrosioides forAg Nanoparticle Synthesis, 2016 Journal of Nanomaterials2016, 4714162

2513. Hussain, M., Nafady, A., Sirajuddin, (...), Mahesar, S.A., Sid-diqui, S. Cefuroxime derived copper nanoparticles and theirapplication as a colorimetric sensor for trace level detectionof picric acid, 2016 RSC Advances 6 (86), pp. 82882-82889

2512. Cesca, T; Esquivel, HS; Gemo, E; Michieli, N; Kalinic, B; Ra-mirez, EVG; Cervantes, JMG; Rojo, RR; Esqueda, JAR; Mattei,G Wavelength- and polarization-dependent nonlinear opti-cal properties of plasmonic nanoprism arrays, NONLINEAROPTICS AND ITS APPLICATIONS IV, 9894 10.1117/12.22270652016 Proceedings of SPIE

2511. Thapa, DK; Pandey, A Cloning nanocrystal morphology withso� templates, CHEMICAL PHYSICS LETTERS, 658 315-318;10.1016/j.cplett.2016.06.056 AUG 1 2016

2510. Roopesh, R; Geedhika, K; DSouza, J; Anandhan, S; Bhat,KU; Jaya, MJ; Fathima, BS; Balakrishnan, RM Optimi-sed microwave-assisted biosynthesis of silver nanoparti-cles from Nothapodytes foetida leaf extracts and its anti-microbial activities, JOURNAL OF EXPERIMENTAL NANOS-CIENCE, 11 (11):840-852; 10.1080/17458080.2016.11694452016

2509. Smith, A.F., Weiner, R.G., Skrabalak, S.E. Symmetry-Dependent Optical Properties of Stellated Nanocrystals,2016 Journal of Physical Chemistry C 120 (37), pp. 20563-20571

2508. Sikdar, D., Kornyshev, A.A. Theory of tailorable optical res-ponse of two-dimensional arrays of plasmonic nanoparti-cles at dielectric interfaces, 2016 Scienti�c Reports 6, 33712

2507. Bossard-Giannesini, L., Cruguel, H., Lacaze, E., Pluchery, O.Plasmonic properties of gold nanoparticles on silicon subs-trates: Understanding Fano-like spectra observed in re�ec-tion, 2016 Applied Physics Letters 109 (11), 111901

2506. Gondal, MA; Adeseda, AA; Rashid, SG; Hameed, A; Aslam, M;Ismail, IMI; Baig, U; Dastageer, MA; Al-Arfaj, AR; Rehman, AUFacile synthesis, characterization and photocatalytic perfor-mance of Au-Ag alloy nanoparticles dispersed on grap-hitic carbon nitride under visible light irradiations, JOUR-NAL OF MOLECULAR CATALYSIS A-CHEMICAL, 423 114-125;10.1016/j.molcata.2016.06.013 NOV 2016

2505. Scherbak, S.A., Lipovskii, A.A. Plasmonic properties of me-tal nanoislands: Surface integral equations approach, 2016Journal of Physics: Conference Series 741 (1), 012120

2504. Salahvarzi, A., Mahani, M., Torkzadeh-Mahani, M., Alizadeh,R. Localized surface plasmon resonance based gold nano-biosensor: Determination of thyroid stimulating hormone,2017 Analytical Biochemistry 516, pp. 1-5

2503. Bhargava, A; Jain, N; Khan, MA; Pareek, V; Dilip, RV; Panwar,J Utilizing metal tolerance potential of soil fungus for e�-cient synthesis of gold nanoparticles with superior catalyticactivity for degradation of rhodamine B, 2016 Journal ofEnvironmental Management 183, pp. 22-32

2502. Kwon, SJ; Lee, GY; Jung, K; Jang, HS; Park, JS; Ju, H; Han, I;Ko, H A Plasmonic Platform with Disordered Array of MetalNanoparticles for Three-Order Enhanced Upconversion Lu-minescence and Highly Sensitive Near-Infrared Photodetec-tor, ADVANCED MATERIALS, 28 (36):7899-7909; 10.1002/ad-ma.201601680 SEP 28 2016

2501. Mohaghegh, F; Tehrani, AM; Materny, A Investigation ofthe chemical enhancement contribution to SERS using aKretschmann arrangement, JOURNAL OF RAMAN SPECTROS-COPY, 47 (9):1029-1035; SI 10.1002/jrs.4920 SEP 2016

2500. Pandey, GK; Pathak, NK; Ji, A; Pathak, H; Sharma, RPStudy of Surface Enhanced Raman Scattering of SingleMolecule Adsorbed on the Surface of Metal Nanogeome-tries: Electrostatic Approach, PLASMONICS, 11 (5):1343-1349;10.1007/s11468-016-0181-x OCT 2016

2499. Imer, C; Gunay, E; Ovecoglu, ML E�ects of �ring temperatu-res and compositions on the formation of nano particles inlustre layers on a lead-alkali glaze, CERAMICS INTERNATIO-NAL, 42 (15):17222-17228; 10.1016/j.ceramint.2016.08.014NOV 15 2016

2498. Savaloni, H., Fakharpour, M., Siabi-Garjan, A., Placido, F.,Babaei, F. Nano-structure and optical properties (plasmonic)of graded helical square tower-like (terraced) Mn sculpturedthin �lms, 2017 Applied Surface Science 393, pp. 234-255


2497. Piralaee, M., Asgari, A. Modeling of optimum light absor-ption in random plasmonic solar cell using e�ective me-dium theory, 2016 Optical Materials 62, pp. 399-402

2496. Qin, F; Cui, XM; Ruan, QF; Lai, YH; Wang, JF; Ma, HG; Lin,HQ Role of shape in substrate-induced plasmonic shi� andmode uncovering on gold nanocrystals, 2016 Nanoscale 8(40), pp. 17645-17657

2495. de Corny, ME; Chauvet, N; Laurent, G; Jeannin, M; Olgeirs-son, L; Drezet, A; Huant, S; Dantelle, G; Nogues, G; Bachelier,G Wave-Mixing Origin and Optimization in Single and Com-pact Aluminum Nanoantennas, 2016 ACS Photonics 3 (10),pp. 1840-1846

2494. Kirakosyan, A.S., Stockman, M.I., Shahbazyan, T.V. Surfaceplasmon lifetime in metal nanoshells, 2016 Physical ReviewB - Condensed Matter and Materials Physics 94 (15), 155429

2493. Xie, T., Jing, C., Li, M., (...), Ding, Z., Long, Y.-T. PH-ResponseMechanism of a Redox Reaction between Silver Ions and Hy-droquinone Authors of Document Year the Document wasPublish 2016 Source of the DocumentJournal of PhysicalChemistry C 120 (40), pp. 23104-23110

2492. Violi, I.L., Gargiulo, J., Von Bilderling, C., Cortes, E., Stefani,F.D. Light-Induced Polarization-Directed Growth of OpticallyPrinted Gold Nanoparticles, 2016 Nano Letters 16 (10), pp.6529-6533

2491. Bhattacharya, S., Samanta, S.K. So�-Nanocomposites ofNanoparticles and Nanocarbons with Supramolecular andPolymer Gels and Their Applications, 2016 Chemical Re-views 116 (19), pp. 11967-12028

2490. Garcia-Valenzuela, A., Morales-Luna, G., Marquez-Islas, R.,Vazquez-Estrada, O. A possible optical gauge for supervi-sing particle size in nano�uids, 2016 Materials Today: Pro-ceedings 3 (8), pp. 2599-2607

2489. Contado, C., Argazzi, R., Amendola, V. Sedimentation �eld�ow fractionation and optical absorption spectroscopy fora quantitative size characterization of silver nanoparticles,2016 Journal of Chromatography A 1471, pp. 178-185

2488. Priecel, P., Salami, H.A., Padilla, R.H., Zhong, Z., Lopez-Sanchez, J.A. Anisotropic gold nanoparticles: Preparationand applications in catalysis, 2016 Cuihua Xuebao/ChineseJournal of Catalysis 37 (10), pp. 1619-1650

2487. Ferrando, R. Optical properties of nanoalloys, 2016 Frontiersof Nanoscience 10, pp. 267-287

2486. Chen, C., Zhao, D., Hu, T., Sun, J., Yang, X. Highly �uorescentnitrogen and sulfur co-doped graphene quantum dots foran inner �lter e�ect-based cyanide sensor, 2017 Sensorsand Actuators, B: Chemical 241, pp. 779-788

2485. Navarro, A., Pava-Chipol, J., Martinez-Gonzalez, C.L.,Trejo-Valdez, M., Hernandez-Gomez, L.H., Torres-Torres, C.Acoustically-controlled optical Kerr e�ect signals in bimeta-llic Au-Pt nanoparticles embedded in a TiO2 thin �lm, 2017Optik 130, pp. 24-31

2484. Sharma, H., Singhal, R., Siva Kumar, V.V., Asokan, K. Structu-ral, optical and electronic properties of Ag-TiO2 nanocom-posite thin �lm, 2016 Applied Physics A: Materials Scienceand Processing 122 (12), 1010

2483. Galindo, D.O.O., Utrera, O.H., Mejia, R.M., Aranda, M.S. Silvernanoparticles by laser ablation con�ned in alcohol using anargon gas environment, 2016 Journal of Laser Micro Na-noengineering 11 (2), pp. 158-163

2482. Reyes-Contreras, D., Gonzalez-Aguilar, M.A., Camacho-Lopez, M.A., Vigueras-Santiago, E., Camacho-Lopez, M.Photoluminescent colloidal Cu at C-NPs suspensions synt-hesized by LASL, 2017 Optics and Laser Technology 90,pp. 102-108

2481. Wu, BH; Lee, J; Mubeen, S; Jun, YS; Stucky, GD; Moskovits,M Plasmon-Mediated Photocatalytic Decomposition of For-mic Acid on Palladium Nanostructures, ADVANCED OPTICALMATERIALS, 4 (7):1041-1046; 10.1002/adom.201600055 JUL2016

2480. Pathak, N.K., Pathak, H., Pandey, G.K., Ji, A., Sharma, R.P.Study of external quantum e�ciency of plasmonic coupledbilayer active device: in�uence of layer thickness and na-noparticle �lling factor, 2016 Applied Physics A: MaterialsScience and Processing 122 (12), 1048

2479. Bozorgmehr, A., Yazdanparast, R., Mollasalehi, H. Non-crosslinking gold nanoprobe-LAMP for simple, colorimetric,and speci�c detection of Salmonella typhi, 2016 Journal ofNanoparticle Research 18 (12), 351

2478. Liu, JJ; Yang, L; Huang, ZF Chiroptically Active Plasmonic Na-noparticles Having Hidden Helicity and Reversible AqueousSolvent E�ect on Chiroptical Activity, SMALL, 12 (42):5902-5909; 10.1002/smll.201601505 NOV 9 2016

2477. Liu, C; Lv, JW; Liu, ZT; Zheng, SJ; Liu, Q; Sun, T; Mu, HW;Chu, PK Theoretical Assessment of Localized Surface Plas-mon Resonance Properties of Au-Interlayer-Ag MultilayeredNanoshells, PLASMONICS, 11 (6):1589-1595; 10.1007/s11468-016-0214-5 DEC 2016

2476. Roopak, S; Pathak, NK; Sharma, R; Ji, A; Pathak, H; Shar-ma, RP Numerical Simulation of Extinction Spectra of Plas-monically Coupled Nanospheres Using Discrete Dipole Ap-proximation: In�uence of Compositional Asymmetry, PLAS-MONICS, 11 (6):1603-1612; 10.1007/s11468-016-0216-3 DEC2016


2475. Shi, XW; Lou, ZZ; Zhang, P; Fujitsuka, MR; Majima, T 3D-Array of Au-TiO2 Yolk-Shell as Plasmonic PhotocatalystBoosting Multi-Scattering with Enhanced Hydrogen Evolu-tion, ACS Applied Materials & Interfaces, 8 (46):31738-31745;10.1021/acsami.6b12940 NOV 23 2016

2474. Kumar, S; Sood, AK Ultrafast Response of Plasmonic Na-nostructures, REVIEWS IN PLASMONICS 2015, 2015 131-167;Book Series: Reviews in Plasmonics

2473. Park, K; Jung, K; Kwon, SJ; Jang, HS; Byun, D; Han, IK; Ko, HPlasmonic Nanowire-Enhanced Upconversion Luminescencefor Anticounterfeit Devices, ADVANCED FUNCTIONAL MATE-RIALS, 26 (43):7836-7846; 10.1002/adfm.201603428 NOV15 2016

2472. Saha, S.K., Roy, P., Mondal, M.K., (...), Chowdhury, P., Babu,S.P.S. Development of chitosan based gold nanomaterial asan e�cient anti�larial agent: A mechanistic approach, 2017Carbohydrate Polymers 157, pp. 1666-1676

2471. Ahmed, H., McCormack, S.J., Doran, J. Plasmonic lumines-cent down shi�ing layers for the enhancement of CdTe mini-modules performance, 2017 Solar Energy 141, pp. 242-248

2470. Genc, A., Patarroyo, J., Sancho-Parramon, J., (...), Puntes, V.,Arbiol, J. Hollow metal nanostructures for enhanced plas-monics: Synthesis, local plasmonic properties and applica-tions, 2017 Nanophotonics 6 (1), pp. 193-213

2469. Amutha, A., Amirthapandian, S., Sundaravel, B., (...), Sarava-nan, K., Thangadurai, P. Low-temperature photoluminescen-ce behaviour of Ag decorated ZnO Nanorods, 2016 Journalof Applied Physics 120 (20), 205104

2468. Santos, JFL; Santos, MJL; Thesing, A; Tavares, F; Griep, J; Ro-drigues, M.R.F. Localized surface plasmon ressonance ap-plied to biosensors and solar cells, 2016 Quimica Nova 39(9), pp. 1098-1111

2467. Grygorchuk, N.I. Behaviour of a line of the surface plas-mon resonance in metal nanoparticles, 2016 Metallo�zika iNoveishie Tekhnologii 38 (6), pp. 717-735

2466. Santos, M; Gonzalez-Obeso, C; Orbanic, D; del Rio, EP; Arias,FJ Advanced Systems for Controlled Drug Delivery fromChemically Modi�ed Elastin-like Recombinamers, CURRENTORGANIC CHEMISTRY, 21 (1):21-33; 2017

2465. Shahbazyan, T.V. Landau damping of surface plasmons inmetal nanostructures, 2016 Physical Review B - CondensedMatter and Materials Physics 94 (23), 235431

2464. Sandoval, A; Zanella, R; Klimova, TE Titania nanotubes de-corated with anatase nanocrystals as support for active andstable gold catalysts for CO oxidation, CATALYSIS TODAY,282 140-150; 10.1016/j.cattod.2016.05.056 2 MAR 15 2017

2463. Chou Chau, Y.-F., Syu, J.-Y., Chao, C.-T.C., Chiang, H.-P., Lim,C.M. Design of crossing metallic metasurface arrays basedon high sensitivity of gap enhancement and transmittan-ce shi� for plasmonic sensing applications, 2017 Journal ofPhysics D: Applied Physics 50 (4), 045105

2462. Piella, J., Bastus, N.G., Puntes, V. Modeling the Optical Res-ponses of Noble Metal Nanoparticles Subjected to Physi-cochemical Transformations in Physiological Environments:Aggregation, Dissolution and Oxidation, 2017 Zeitschri� furPhysikalische Chemie 231 (1), pp. 33-50

2461. Lakhotiya, H; Nazir, A; Madsen, SP; Christiansen, J; Eriksen,E; Vester-Petersen, J; Johannsen, SR; Jeppesen, BR; Balling,P; Larsen, AN; Julsgaard, B Plasmonically enhanced upcon-version of 1500 nm light via trivalent Er in a TiO2 matrix ,2016 Applied Physics Letters 109 (26), 263102

2460. Yang, YY; Noviana, E; Nguyen, MP; Geiss, BJ; Dandy, DS;Henry, CS Paper-Based Micro�uidic Devices: Emerging The-mes and Applications, 2017 Analytical Chemistry 89 (1), pp.71-91

2459. Medhat, M; El-Batawy, YM; Abdelmageed, AK; Soliman, EAGear Nano Antenna for Plasmonic Photovoltaic, 2016 IEEEMIDDLE EAST CONFERENCE ON ANTENNAS AND PROPAGA-TION (MECAP), 2016

2458. Milazzo, RG; Mio, AM; DArrigo, G; Smecca, E; Alberti, A; Fi-sichella, G; Giannazzo, F; Spinella, C; Rimini, E In�uence ofhydro�uoric acid treatment on electroless deposition of Auclusters, 2017 Beilstein Journal of Nanotechnology 8 (1), pp.183-189

2457. Zhou, R., Huang, T.T., Lin, S.D. Synthesis of nanoparticlesby pulsed laser ablation in air: A versatile means for �e-xible synthesis and separation, 2016 Proceedings of SPIE- The International Society for Optical Engineering 10018,100180C

2456. Hong, R., Ji, J., Tao, C., Zhang, D. Tunable surface plasmonresonance frequency of Au-Ag bimetallic asymmetric struc-ture thin �lms in the UV and IR region, 2016 Proceedingsof SPIE - The International Society for Optical Engineering10154, 1015418

2455. Maiti, A; Maity, A; Satpati, B; Large, N; Chini, TK E�cient Ex-citation of Higher Order Modes in the Plasmonic Responseof Individual Concave Gold Nanocubes, JOURNAL OF PHYSI-CAL CHEMISTRY C, 121 (1):731-740; 2017

2454. Yao, H; Shiratsu, T Multipolar Surface Magnetoplasmon Re-sonances in Triangular Silver Nanoprisms studied by MCDSpectroscopy, JOURNAL OF PHYSICAL CHEMISTRY C, 121(1):761-768; 10.1021/acs.jpcc.6b11216 JAN 12 2017


2453. Bhardwaj, S; Pathak, NK; Ji, A; Uma, R; Sharma, RP Tuna-ble Properties of Surface Plasmon Resonance of Metal Na-nospheroid: Graphene Plasmon Interaction, PLASMONICS,12 (1):193-201; 10.1007/s11468-016-0249-7 FEB 2017

2452. Bushell, M., Bottomley, A., Ianoul, A. Utilization of hybridplasmonic modes to investigate surface interactions bet-ween nanocubes and polymer substrates, 2017 AppliedPhysics A: Materials Science and Processing 123 (2), 135

2451. Xie, T., Jing, C., Long, Y.-T. Single plasmonic nanoparticlesas ultrasensitive sensors, 2017 Analyst 142 (3), pp. 409-420

2450. Chang, H., Gao, W., Sun, X., Tan, H., Sun, S. Preparation,characterization and antibiotic properties of silver-siliconnanocomposites, 2017 New Journal of Chemistry 41 (3), pp.1313-1320

2449. Chen, Yihuang; Yoon, Young Jun; Pang, Xinchang; et al. Preci-sely Size-Tunable Monodisperse Hairy Plasmonic Nanopar-ticles via Amphiphilic Star-Like Block Copolymers, SMALL12, 6714-6723 (2016)

2448. Fujiyoshi, Y., Nemoto, T., Kurata, H. Studying substrate ef-fects on localized surface plasmons in an individual silvernanoparticle using electron energy-loss spectroscopy, 2017Ultramicroscopy 175, pp. 116-120

2447. Kadkhodazadeh, S., Christensen, T., Beleggia, M., Morten-sen, N.A., Wagner, J.B. The Substrate E�ect in ElectronEnergy-Loss Spectroscopy of Localized Surface Plasmonsin Gold and Silver Nanoparticles, 2017 ACS Photonics 4(2),pp. 251-261

2446. Kumar, D., Wadhwa, H., Mahendia, S., Chand, F., Kumar,S. E�ect of rose water on structural, optical and electricalproperties of composites of reduced graphene oxide-poly(vinyl alcohol) (PVA) gra�ed with silver nanoparticles, 2017Materials Research Express 4(2),025021

2445. Nayak, D.R., Bhat, N., Venkatapathi, M., Umapathy, S. Im-pact of ultrathin dielectric spacers on SERS: energy transferbetween polarized charges and plasmons, 2017 Journal ofMaterials Chemistry C 5(8), pp. 2123-2129

2444. Karn-Orachai, K., Sakamoto, K., Laocharoensuk, R., (...),Dharakul, T., Miki, K. SERS-based immunoassay on 2D-arrays of Au at Ag core-shell nanoparticles: in�uence of thesizes of the SERS probe and sandwich immunocomplex onthe sensitivity, 2017 RSC Advances 7(23), pp. 14099-14106

2443. Todorov, R., Lozanova, V., Knotek, P., Cernoskova, E., Vlcek,M. Microstructure and ellipsometric modelling of the opticalproperties of very thin silver �lms for application in plas-monics, 2017, Thin Solid Films628, pp. 22-30

2442. Mikitchuk, AP; Kozadaev, KV Modeling Interaction BetweenSilver Nanoparticles in a 2D Array on a Glass Substra-te, JOURNAL OF APPLIED SPECTROSCOPY, 83 (6):996-1000;2017

2441. Gezgin, S.Y., Kepceoglu, A., Kilic, H.S. An experimental in-vestigation of localised surface plasmon resonance (LSPR)for Cu nanoparticles depending as a function of laser pul-se number in Pulsed Laser Deposition, 2017 AIP ConferenceProceedings 1815, 030020

2440. Tsuzuki, T. Properties of nanoparticulate materials, (BookChapter) 2016 Handbook of Clinical Nanomedicine: Nano-particles, Imaging, Therapy and Clinical Applications 1, pp.171-209

2439. Mohan, S; Sivakumar, B; Kulangara, RV; Subramanian,B Visible Light Driven Photocatalytic E�ciency of rGO-Ag-BiFeO3 Ternary Nanohybrids on the Decontamina-tion of Dye-Polluted Water: An Amalgamation of 1D,2D and 3D Systems, CHEMISTRYSELECT, 1 (21):6961-6971;10.1002/slct.201601275 DEC 16 2016

2438. Nedyalkov, N; Nikov, R; Nikov, R; Nikolov, A; Atanasov, P;Nakajima, Y; Terakawa, M; Sawczak, M; Grochowska, K; Sli-winski, G Gold nanostructures for detection of pesticides, ni-trates and drugs using Surface Enhanced Raman Spectros-copy, Edited by: Dreischuh T; Gateva S; Daskalova A; Sera-fetinide A, 19TH INTERNATIONAL CONFERENCE AND SCHOOLON QUANTUM ELECTRONICS: LASER PHYSICS AND APPLICA-TIONS, 10226 10.1117/12.2261674 2017

2437. Schmidt, MM; Wu, SL; Cui, ZX; Nguyen, NT; Faulkner, M;Saunders, BR How gold nanoparticles can be used to pro-be the structural changes of a pH-responsive hydrogel,PHYSICAL CHEMISTRY CHEMICAL PHYSICS, 19 (7):5102-5112;10.1039/c6cp07929f FEB 21 2017

2436. Ghosh, S; Saha, M; Paul, S; De, SK Shape Controlled Plasmo-nic Sn Doped CdO Colloidal Nanocrystals: A Synthetic Routeto Maximize the Figure of Merit of Transparent ConductingOxide, SMALL, 13 (7):10.1002/smll.201602469 FEB 17 2017

2435. Kalita, NK; Ganguli, JN Hibiscus sabdari�a L. leaf ex-tract mediated green synthesis of silver nanoparticlesand its use in catalytic reduction of 4-nitrophenol,SYNTHESIS AND REACTIVITY IN INORGANIC METAL-ORGANIC AND NANO-METAL CHEMISTRY, 47 (5):788-793;10.1080/15533174.2016.1218506 2017

2434. Feng, WC; Kim, JY; Wang, XZ; Calcaterra, HA; Qu, ZB;Meshi, L; Kotov, NA Assembly of mesoscale helices withnear- unity enantiomeric excess and light-matter inter-actions for chiral semiconductors, SCIENCE ADVANCES, 3(3):10.1126/sciadv.1601159 MAR 2017


2433. Liu, XF; Guo, QB; Qiu, JR Emerging Low-Dimensional Mate-rials for Nonlinear Optics and Ultrafast Photonics, Liu, Xiao-feng; Guo, Qiangbing; Qiu, Jianrong, ADVANCED MATERIALS,29 (14):SI 10.1002/adma.201605886 APR 11 2017

2432. Rastogi, L., Dash, K., Ballal, A Selective colorimetric/visualdetection of Al3+ in ground water using ascorbic acid cap-ped gold nanoparticles, 2017 Sensors and Actuators, B: Che-mical 248, pp. 124-132

2431. Liang, C.-J., Huang, K.-Y., Hung, L.-T., Su, C.-Y. Rapidly fabri-cation of plasmonic structural color thin �lms through AAOprocess in an alkaline solution, 2017 Surface and CoatingsTechnology 319, pp. 170-181

2430. Magnfalt, D., Melander, E., Boyd, R.D., Kapaklis, V., Saraki-nos, K. Synthesis of tunable plasmonic metal-ceramic na-nocomposite thin �lms by temporally modulated sputtered�uxes, 2017 Journal of Applied Physics 121(17),171918

2429. Shokri, E., Hosseini, M., Davari, M.D., (...), Peppelenbosch,M.P., Rezaee, F. Disul�de-induced self-assembled targets: Anovel strategy for the label free colorimetric detection ofDNAs/RNAs via unmodi�ed gold nanoparticles, 2017 Scien-ti�c Reports 7,45837

2428. Nadal, E., Barros, N., Glenat, H., (...), Schmool, D.S., Kachka-chi, H. Plasmon-enhanced di�raction in nanoparticle gra-tings fabricated by in situ photo-reduction of gold chloridedoped polymer thin �lms by laser interference patterning,2017 Journal of Materials Chemistry C 5(14), pp. 3553-3560

2427. Pathak, NK; Chander, N; Komarala, VK; Sharma, RP Plasmo-nic Perovskite Solar Cells Utilizing Au at SiO2 Core-Shell Na-noparticles, PLASMONICS, 12 (2):237-244; 10.1007/s11468-016-0255-9 APR 2017

2426. Bodelon, G; Costas, C; Perez-Juste, J; Pastoriza-Santos, I; Liz-Marzan, LM Gold nanoparticles for regulation of cell fun-ction and behavior, NANO TODAY, 13 40-60; 2017

2425. Castro-Longoria, E Fungal Biosynthesis of Nanoparticles,a Cleaner Alternative, Edited by: Purchase D, FUNGAL AP-PLICATIONS IN SUSTAINABLE ENVIRONMENTAL BIOTECHNO-LOGY, 323-351; 2016

2424. Moustafa, S.Y., Sahar, M.R., Ghoshal, S.K. Spectroscopic at-tributes of Er3+ ions in antimony phosphate glass incorpo-rated with Ag nanoparticles: Judd-Ofelt analysis, 2017 Jour-nal of Alloys and Compounds 712, pp. 781-794

2423. Patil, S., Chaudhari, G., Paradeshi, J., Mahajan, R., Chaud-hari, B.L. Instant green synthesis of silver-based herbo-metallic colloidal nanosuspension in Terminalia belliricafruit aqueous extract for catalytic and antibacterial appli-cations, 2017, 3 Biotech 7(1),36

2422. Cheng, JJ; Le Saux, G; Gao, J; Bu�eteau, T; Battie, Y; Ba-rois, P; Ponsinet, V; Delville, MH; Ersen, O; Pouget, E; Oda, RGoldHelix: Gold Nanoparticles Forming 3D Helical Supers-tructures with Controlled Morphology and Strong ChiropticalProperty, 2017 ACS Nano 11(4), pp. 3806-3818

2421. Gromov, D.G., Melnikov, I.V., Savitskii, A.I., (...), Redichev, E.N.,Astapenko, V.A. Optical spectroscopy of arrays of Ag-Au na-noparticles obtained by vacuum-thermal evaporation, 2017Technical Physics Letters 43(3), pp. 235-237

2420. Voicu, R.C., Sandu, T. Analytical results regarding electrosta-tic resonances of surface phonon/plasmon polaritons: Se-paration of variables with a twist, 2017 Proceedings of theRoyal Society A: Mathematical, Physical and EngineeringSciences 473(2199),20160796

2419. Ju-Nam, Y., Lead, J. Properties, Sources, Pathways, and Fateof Nanoparticles in the Environment, (Book Chapter) 2016Engineered Nanoparticles and the Environment: Biophysi-cochemical Processes and Toxicity pp. 95-117

2418. Santos, M., Gonzalez-Obeso, C., Orbanic, D., Del Rio, E.P.,Arias, F.J. Advanced systems for controlled drug deliveryfrom chemically modi�ed elastin-like recombinamers, 2017Current Organic Chemistry 21(1), pp. 21-33

2417. Nedyalkov, N; Nikov, R; Dikovska, A; Atanasova, G; Nakaji-ma, Y; Terakawa, M Gold nanostructures deposition by laserablation in air using nano- and femtosecond laser pulses,APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING, 123(5):10.1007/s00339-017-0878-5 MAY 2017

2416. Biswas, P; Cho, SR; Kim, JW; Baek, SD; Myoung, JM ImprovedUV response of ZnO nanotubes by resonant coupling of an-chored plasmonic silver nanoparticles, NANOTECHNOLOGY,28 (22):10.1088/1361-6528/aa6ce0 JUN 2 2017

2415. Sharma, V; Chotia, C; Tarachand; Ganesan, V; Okram, GSIn�uence of particle size and dielectric environment on thedispersion behaviour and surface plasmon in nickel na-noparticles, PHYSICAL CHEMISTRY CHEMICAL PHYSICS, 2114096-14106; 10.1039/c7cp01769c JUN 7 2017

2414. Sementa, L; Barcaro, G; Baseggio, O; De Vetta, M; Dass,A; Apra, E; Stener, M; Fortunelli, A Ligand-Enhanced Op-tical Response of Gold Nanomolecules and Its FragmentProjection Analysis: The Case of Au-30(SR)(18), JOUR-NAL OF PHYSICAL CHEMISTRY C, 121 (20):10832-10842; SI10.1021/acs.jpcc.6b12029 MAY 25 2017

2413. Gholami-Shabani, M; Shams-Ghahfarokhi, M; Gholami-Shabani, Z; Razzaghi-Abyaneh, M Microbial Enzymes: Cu-rrent Features and Potential Applications in Nanobiotech-nology, ADVANCES AND APPLICATIONS THROUGH FUNGALNANOBIOTECHNOLOGY, 91-127; 10.1007/978-3-319-42990-8-5 2016


2412. Morino, R; Tajima, H; Sonoda, H; Kobayashi, H; Kanamo-to, R; Odashima, H; Tachikawa, M Mode-selective thermalradiation from a microsphere as a probe of optical proper-ties of high-temperature materials, PHYSICAL REVIEW A, 95(6):10.1103/PhysRevA.95.063814 JUN 14 2017

2411. Wozniak, A; Malankowska, A; Nowaczyk, G; Grzeskowiak,BF; Tusnio, K; Slomski, R; Zaleska-Medynska, A; Jurga, S Sizeand shape-dependent cytotoxicity pro�le of gold nanopar-ticles for biomedical applications, JOURNAL OF MATERIALSSCIENCE-MATERIALS IN MEDICINE, 28 (6):10.1007/s10856-017-5902-y JUN 2017

2410. Papa, L; de Freitas, IC; Geonmonond, RS; de Aquino, CB; Pie-retti, JC; Domingues, SH; Ando, RA; Camargo, PHC Supportsmatter: unraveling the role of charge transfer in the plas-monic catalytic activity of silver nanoparticles, Papa, Leti-zia; de Freitas, Isabel C.; Geonmonond, Rafael S.; de Aquino,Caroline B.; Pieretti, Joana C.; Domingues, Sergio H.; Ando,Romulo A.; Camargo, Pedro H. C., JOURNAL OF MATERIALSCHEMISTRY A, 5 (23):11720-11729; 10.1039/c6ta10122d JUN21 2017

2409. Chen, L; Yan, HY; Xue, XX; Jiang, DY; Cai, YX; Liang, DM; Jung,YM; Han,XX; Zhao, B Surface-Enhanced Raman Scattering(SERS) Active Gold Nanoparticles Decorated on a PorousPolymer Filter, APPLIED SPECTROSCOPY, 71 (7):1543-1550;10.1177/0003702817703293 JUL 2017

2408. Yu, M; Yang, C; Li, XM; Lei, TY; Sun, HX; Dai, LP; Gu, Y; Ning, X;Zhou, T; Wang, C; Zeng, HB; Xiong, J Universal liquid-phaselaser fabrication of various nano-metals encapsulated byultrathin carbon shells for deep-UV plasmonics, NANOSCA-LE, 9 (25):8716-8722; 10.1039/c7nr01966a JUL 7 2017

2407. Cheng, YF; Cao, Q; Zhang, J; Wu, T; Che, RC E�cient photo-degradation of dye pollutants using a novel plasmonic AgClmicrorods array and photo–optimized surface-enhancedRaman scattering, APPLIED CATALYSIS B-ENVIRONMENTAL,217 37-47; 10.1016/j.apcatb.2017.05.021 NOV 15 2017

2406. Sanchez-Esquivel, H; Raygoza-Sanchez, KY; Rangel-Rojo, R;Gemo, E; Michieli, N; Kalinic, B; Reyes-Esqueda, JA; Cesca,T; Mattei, G Spectral dependence of nonlinear absorptionin ordered silver metallic nanoprism arrays, SCIENTIFIC RE-PORTS, 7 10.1038/s41598-017-04814-2 JUL 13 2017

2405. Mathew, S., Samuel, B., Mujeeb, A., (...), Nampoori, V.P.N.,Girijavallabhan, C.P. E�ect of Au coating on optical proper-ties of CdS nanoparticles and their optical limiting studies,2017 Optical Materials 72, pp. 673-679

2404. Arya, M., Mitra, A., Nath, R. Spectroscopic ellipsometer studyof correlation of out of plane and in-plane plasmons in sil-ver nanoislands with annealing induced growth, 2017 Va-cuum 143, pp. 348-355

2403. Bhardwaj, S., Uma, R., Sharma, R.P. A Study of Metal atGraphene Core-Shell Spherical Nano-Geometry to Enhancethe SPR Tunability: In�uence of Graphene Monolayer ShellThickness, 2017 Plasmonics 12(4), pp. 961-969

2402. Sharma, R., Roopak, S., Pathak, N.K., ji, A., Sharma, R.P.Study of Surface Plasmon Resonances of Core-Shell Na-nosphere: A Comparison between Numerical and AnalyticalApproach, 2017 Plasmonics 12(4), pp. 977-986

2401. Monti, A., Toscano, A., Bilotti, F. Analysis of the scatteringand absorption properties of ellipsoidal nanoparticle arraysfor the design of full-color transparent screens, 2017 Journalof Applied Physics 121(24),243106

2400. Medhat, M; El-Batawy, YM; Abdelmageed, AK; Soliman,EA Plasmonic Photovoltaics Using Nano Crescent Antennas,IEEE, 2017 11TH EUROPEAN CONFERENCE ON ANTENNAS ANDPROPAGATION (EUCAP), 2017

2399. Zhu, X., Chen, Y., Shi, H., Zhang, S., Liu, Q., Duan, H. Split-orientation-modulated plasmon coupling in disk/sector di-mers, (2017) Journal of Applied Physics, 121 (21), art. no.213105

2398. A Kumar, K.V., Seema, R., Aiswarya, R., Vineetha, V.R. Sol-gelsynthesized silver nanoparticles doped silica/titanosilicate�lms for plasmonic solar cell applications, (2017) AIP Con-ference Proceedings, 1849, art. no. 020017

2397. Deng, Y., Ou, J., Yu, J., Zhang, M., Zhang, L. Coupled twoaluminum nanorod antennas for near-�eld enhancement,(2017) Frontiers of Optoelectronics, 10 (2) pp. 138-143.

2396. Amraoui, M., Daoudi, C., Remram, M. Preparation and cha-racterization of silver nanospheroids: Theoretical and expe-rimental approaches, (2017) Photonics Letters of Poland, 9(2) pp. 63-65.

2395. Byram, C., Moram, S.S.B., Shaik, A.K., Soma, V.R. Versati-le gold based SERS substrates fabricated by ultrafast la-ser ablation for sensing picric acid and ammonium nitrate,(2017) Chemical Physics Letters, 685 pp. 103-107.

2394. Qin, H; Shamso, AE; Centeno, A; Theodorou, LG; Mihai, AP;Ryan, MP; Xie, F, Enhancement of the upconversion photolu-minescence of hexagonal phase NaYF4:Yb3+,Er3+ nanopar-ticles by mesoporous gold �lmst, PHYSICAL CHEMISTRY CHE-MICAL PHYSICS, 19 (29):19159-19167; 10.1039/c7cp01959aAUG 7 2017

2393. Qin, H., Shamso, A.E., Centeno, A., (...), Ryan, M.P., Xie, F. En-hancement of the upconversion photoluminescence of he-xagonal phase NaYF4:Yb3+,Er3+ nanoparticles by mesopo-rous gold �lms Physical Chemistry Chemical Physics 19(29),pp. 19159-19167 2017


2392. Nedyalkov, N., Dikovska, A., Nikov, R., Atanasov, P., Sliwinski,G., Hirsch, D., Rauschenbach, B. Laser-induced nanoparticlefabrication on paper, (2017) Applied Physics A: MaterialsScience and Processing, 123 (9), art. no. 570

2391. Karthiga, D., Chandrasekaran, N., Mukherjee, A. Compara-tive studies on interaction of inorganic mercury with silvernanorods and nanotriangles, (2017) Journal of Molecular Li-quids, 242 pp. 987-992.

2390. Battie, Y., Stchakovsky, M., En Naciri, A., Akil, S., Chaoui,N., Broch, L. Ellipsometry of Colloidal Solutions: New Expe-rimental Setup and Application to Metallic Colloids, (2017)Langmuir, 33 (30) pp. 7425-7434.

2389. Liu, X., Yao, J., Luo, J., Duan, X., Yao, Y., Liu, T. E�ect ofGrowth Temperature on Tailoring the Size and Aspect Ratioof Gold Nanorods, (2017) Langmuir, 33 (30) pp. 7479-7485.

2388. Morino, R., Tajima, H., Sonoda, H., Kobayashi, H., Kanamo-to, R., Odashima, H., Tachikawa, M. Mode-selective thermalradiation from a microsphere as a probe of optical proper-ties of high-temperature materials, (2017) Physical ReviewA, 95 (6), art. no. 063814

2387. Schmidt, M.M., Wu, S., Cui, Z., Nguyen, N.T., Faulkner, M.,Saunders, B.R. How gold nanoparticles can be used to probethe structural changes of a pH-responsive hydrogel, (2017)Physical Chemistry Chemical Physics, 19 (7) pp. 5102-5112.

2386. Atanasov, P.A. Gold nanostructures: Preparation, properties,application in SERS, and biophotonics, (2017) Nanostructu-res for Novel Therapy: Synthesis, Characterization and Ap-plications, pp. 457-496.

2385. Ahmad, H; Amiri, IS; Soltanian, MRK; Narimani, L; Zakaria, R;Ismail, MF; Thambiratnam, K High sensitivity surface plas-mon resonance (SPR) refractive index sensor in 1.5 mu m,MATERIALS EXPRESS, 7 (2):145-150; 10.1166/mex.2017.1353APR 2017

2384. Etcheverry, S; Araujo, LF; da Costa, GKB; Pereira, JMB; Cama-ra, AR; Naciri, J; Ratna, BR; Hernandez-Romano, I; de Matos,CJS; Carvalho, ICS; Margulis, W; Fontana, J Microsecond swit-ching of plasmonic nanorods in an all-�ber opto�uidic com-ponent, OPTICA, 4 (8):864-870; 10.1364/OPTICA.4.000864AUG 20 2017

2383. Pandiarajan, J; Krishnan, M Properties, synthesis and toxicityof silver nanoparticles, ENVIRONMENTAL CHEMISTRY LET-TERS, 15 (3):387-397; 10.1007/s10311-017-0624-4 SEP 2017

2382. Pu, YC; Song, F; Zhang, WC; Lindley, S; Adams, S;Zhang, JZ Size-Tunable Synthesis of Hollow Gold Nanosp-heres through Control of Reaction Temperature, PARTI-CLE & PARTICLE SYSTEMS CHARACTERIZATION, 34 (8):SI10.1002/ppsc.201600255 AUG 2017

2381. Zhuge, FW; Zheng, Z; Luo, P; Lv, L; Huang, Y; Li, HQ; Zhai,TY Nanostructured Materials and Architectures for Advan-ced Infrared Photodetection, ADVANCED MATERIALS TECH-NOLOGIES, 2 (8):10.1002/admt.201700005 AUG 2017

2380. De Zuani, S; Rommel, M; Vogelgesang, R; Weis, J; Gompf, B;Dressel, M; Berrier, A Large-Area Two-Dimensional Plasmo-nic Meta-Glasses and Meta-Crystals: a Comparative Study,PLASMONICS, 12 (5):1381-1390; 10.1007/s11468-016-0397-9OCT 2017

2379. dos Santos, VE; Targino, AGR; Flores, MAP; Rodriguez-Diaz,J; Teixeira, JA; Heimer, MV; Pessoa, HDF; Galembeck, A;Rosenblatt, A Antimicrobial activity of silver nanoparticlecolloids of di�erent sizes and shapes against Streptococ-cus mutans, RESEARCH ON CHEMICAL INTERMEDIATES, 43(10):5889-5899; 10.1007/s11164-017-2969-5 OCT 2017

2378. Goyal, D; Kaur, G; Tewari, R; Kumar, R Correlation of edgetruncation with antibacterial activity of plate-like anisotro-pic silver nanoparticles, ENVIRONMENTAL SCIENCE AND PO-LLUTION RESEARCH, 24 (25):20429-20437; 10.1007/s11356-017-9630-0 SEP 2017

2377. Koleva, ME; Nedyalkov, NN; Fukata, N; Jevasuwan, W; Amo-ruso, S; Koutzarova, T; Avdeev, GV; Georgieva, B; Karasha-nova, D Laser-assisted approach for synthesis of plasmonicAg/ZnO nanostructures, SUPERLATTICES AND MICROSTRUC-TURES, 109 886-896; 10.1016/j.spmi.2017.06.007 SEP 2017

2376. Monti, A; Alu, A; Toscano, A; Bilotti, F Narrowband transpa-rent absorbers based on ellipsoidal nanoparticles, APPLIEDOPTICS, 56 (27):7533-7538; 10.1364/AO.56.007533 SEP 202017

2375. Fan Chiang, C.-M., Chang, B.-R., Lee, Y.-J., Sarma, M., Yang,Z.-P., Su, H.-C., Cheng, H.-E., Wong, K.-T. Improving color sa-turation of blue light-emitting electrochemical cells by plas-monic �lters, (2017) Organic Electronics: physics, materials,applications, 51 pp. 70-75.

2374. Sahin, B., Demir, E., Aygun, A., Gnduz, H., Sen, F. Investiga-tion of the e�ect of pomegranate extract and monodispersesilver nanoparticle combination on MCF-7 cell line, (2017)Journal of Biotechnology, 260 pp. 79-83.

2373. Melentiev, PN; Afanasiev, AE; Balykin, VI Single plasmonicsplit hole resonator nanostructure as an e�cient nanos-cale light source, QUANTUM ELECTRONICS, 47 (9):818-826;10.1070/QEL16468 2017

2372. Saravanan, M; Jacob, V; Shankar, KR; Deekonda, K; Arockia-raj, J; Prakash, P SILVER NANOPARTICLES: NEWLY EMERGINGANTIMICROBIALS IN 21ST CENTURY, Edited by: Kalarikkal N;Augustine R; Oluwafemi OS; Joshy KS; Thomas S, NANOME-DICINE AND TISSUE ENGINEERING: STATE OF THE ART ANDRECENT TRENDS, 103-139; 2016


2371. Tellez-Limon, R; Fevrier, M; Apuzzo, A; Salas-Montiel, R;Blaize, S Numerical analysis of tip-localized surface plas-mon resonances in periodic arrays of gold nanowires withtriangular cross section, JOURNAL OF THE OPTICAL SO-CIETY OF AMERICA B-OPTICAL PHYSICS, 34 (10):2147-2154;10.1364/JOSAB.34.002147 OCT 1 2017

2370. Ferrando, R Structure and Properties of Nanoalloys, STRUC-TURE AND PROPERTIES OF NANOALLOYS, 10 1-337; 2016Book Series: Frontiers of Nanoscience

2369. Mota-Santiago, P; Kremer, F; Nadzri, A; Ridgway, MC; Kluth,P Elongation of metallic nanoparticles at the interface ofsilicon dioxide and silicon nitride, NUCLEAR INSTRUMENTSAND METHODS IN PHYSICS RESEARCH SECTION B-BEAM IN-TERACTIONS WITH MATERIALS AND ATOMS, 409 328-332;10.1016/j.nimb.2017.03.068 OCT 15 2017

2368. Dorofeev, IO; Dunaevskii, GE; Suslyaev, VI; Minin, IV; Minin,OV Small-sized body in�uence on the quality factor increa-sing of quasioptical open resonator, OPTICAL AND QUAN-TUM ELECTRONICS, 49 (11):10.1007/s11082-017-1201-6 NOV2017

2367. Jo, S; Verma, P; Kuwahara, Y; Mori, K; Choi, W; Yamashita,H Enhanced hydrogen production from ammonia boraneusing controlled plasmonic performance of Au nanoparti-cles deposited on TiO2 JOURNAL OF MATERIALS CHEMISTRYA, 5 (41):21883-21892; 10.1039/c7ta07264c NOV 7 2017

2366. Zadeh, SH; Rashidi-Huyeh, M; Palpant, B Enhancement ofthe thermo-optical response of silver nanoparticles due tosurface plasmon resonance, JOURNAL OF APPLIED PHYSICS,122 (16):10.1063/1.4997276 OCT 28 2017

2365. Zhang, L; Wang, JH; Zhang, JX; Liu, YQ; Wu, LZ; Shen, JJ;Zhang, Y; Hu, YL; Fan, QL; Huang, W; Wang, LH Individual Au-Nanocube Based Plasmonic Nanoprobe for Cancer RelevantMicroRNA Biomarker Detection, ACS SENSORS, 2 (10):1435-1440; 10.1021/acssensors.7b00322 OCT 2017

2364. Santiago, EY; Esquivel-Sirvent, R Optical properties of aniso-tropic 3D nanoparticles arrays, EPL, 119 (2):10.1209/0295-5075/119/27005 JUL 2017

2363. Fales, AM; Vogt, WC; Pfefer, J; Ilev, IK Quantitative Evalua-tion of Nanosecond Pulsed Laser-Induced Photomodi�ca-tion of Plasmonic Gold Nanoparticles, SCIENTIFIC REPORTS,7 10.1038/s41598-017-16052-7 NOV 16 2017

2362. Shah, K., Sharma, N.K., Sajal, V. Simulation of LSPR based�ber optic sensor utilizing layer of platinum nanoparticles,2018 Optik, 154, pp. 530-537

2361. Arora, N., Mehta, A., Mishra, A., Basu, S. 4-Nitrophenol re-duction catalysed by Au-Ag bimetallic nanoparticles sup-ported on LDH: Homogeneous vs. heterogeneous catalysis,2018 Applied Clay Science, 151, pp. 1-9.

2360. Parra-Barranco, J., Sanchez-Valencia, J.R., Barranco, A.,Gonzalez-Elipe, A.R. Silver and gold nanoparticles in na-nometric con�ned templates: Synthesis and alloying withinthe anisotropic pores of oblique angle deposited �lms, 2017Nanotechnology, 28(48), art. no. 485602

2359. Keys, B., Shahbazyan, T.V. Surface-assisted plasmon decayin metal nanostructures, 2017 Proceedings of SPIE - The In-ternational Society for Optical Engineering, 10343, art. no.1034323

2358. Smith, K.W., Yang, J., Hernandez, T., (...), Nordlander, P. Link,S. Environmental symmetry breaking promotes plasmonmode splitting in gold nanotriangles, 2017 Journal of Phy-sical Chemistry C, 121(39).

2357. Delgado-Beleno, Y., Martinez-Nunez, C.E., Cortez-Valadez,M., Flores-Lopez, N.S., Flores-Acosta, M. Optical propertiesof silver, silver sul�de and silver selenide nanoparticles andantibacterial applications, Materials Research Bulletin 99,2018, Pages 385-392

2356. Sha, L., Gao, P., Wu, T., Chen, Y. Chemical Ni-C Bonding inNi-Carbon Nanotube Composite by a Microwave WeldingMethod and Its Induced High-Frequency Radar FrequencyElectromagnetic Wave Absorption, 2017 ACS Applied Mate-rials and Interfaces 9(46), pp. 40412-40419

2355. Nikov, R.G., Dikovska, A.O., Nedyalkov, N.N., Avdeev, G.V.,Atanasov, P.A. Au nanostructure fabrication by pulsed la-ser deposition in open air: In�uence of the deposition geo-metry, 2017 Beilstein Journal of Nanotechnology 8(1), pp.2438-2445

2354. Al-Dahash, G., Abd AL-Dayem, W., Laith, Z. Synthesis con-ditions of AgCore at Aushell system by laser ablation with(1064, 532, 355) nm wave lengths, 2017 Journal of GlobalPharma Technology 9(9PartB), pp. 234-240

2353. Nedyalkov, N; Koleva, M; Stankova, N; Nikov, R; Terakawa,M; Nakajima, Y; Aleksandrov, L; Iordanova, R Laser-assistedfabrication of gold nanoparticle-composed structures em-bedded in borosilicate glass, BEILSTEIN JOURNAL OF NANO-TECHNOLOGY, 8 2454-2463; 10.3762/bjnano.8.244 NOV 212017

2352. Beynik, T.G., Matveevska, N.A., Dobrotvorska, M.V., (...), Vor-novskikh, A.A., Kuryavyi, V.G. Fabrication and properties ofgold nanostars and �lm structures based on them 2017 Na-nosistemi, Nanomateriali, Nanotehnologii 15(3), pp. 417-429

2351. Miloshevsky, A; Phillips, MC; Harilal, SS; Dressman, P; Mi-loshevsky, G Generation of nanoclusters by ultrafast laserablation of Al: Molecular dynamics study, PHYSICAL RE-VIEW MATERIALS, 1 (6):10.1103/PhysRevMaterials.1.063602NOV 16 2017


2350. Oh, Y., Lee, J., Lee, M. Fabrication of Ag-Au bimetallic nano-particles by laser-induced dewetting of bilayer �lms, 2018Applied Surface Science 434, pp. 1293-1299

2349. Chau, YFC; Wang, CK; Shen, LF; Lim, CM; Chiang, HP; Chao,CTC; Huang, HJ; Lin, CT; Kumara, NTRN; Voo, NY Simulta-neous realization of high sensing sensitivity and tunabilityin plasmonic nanostructures arrays, 2017 Scienti�c Reports7(1),16817

2348. Zhang, R., Adsetts, J.R., Nie, Y., Sun, X., Ding, Z. Electroche-miluminescence of nitrogen- and sulfur-doped graphenequantum dots, 2018 Carbon 129, pp. 45-53

2347. Yu, X., Xuan, Y. Investigation on thermo-optical properties ofCuO/Ag plasmonic nano�uids 2018 Solar Energy 160, pp.200-207

2346. Ho, W.-J., Fen, S.-K., Liu, J.-J. Plasmonic e�ects of silver na-noparticles with various dimensions embedded and non-embedded in silicon dioxide antire�ective coating on siliconsolar cells, 2018 Applied Physics A: Materials Science andProcessing 124(1),29

2345. Gutierrez, Y; Ortiz, D; Saiz, JM; Gonzalez, F; Everitt, HO; Mo-reno, F The UV plasmonic behavior of distorted rhodiumnanocubes, 2017 Nanomaterials 7(12),425

2344. Praveena, R., Rao, G.V., Balasubrahmanyam, K., Krishna,M.G., Madhurima, V. Optical and water repellant propertiesof Ag/SnO2bilayer thin �lms, 2016 AIMS Materials Science3(1), pp. 231-244

2343. Chen, HY; Su, LX; Jiang, MM; Fang, XS Highly Desira-ble Photodetectors Derived from Versatile PlasmonicNanostructures, ADVANCED FUNCTIONAL MATERIALS, 27(45):10.1002/adfm.201704213 DEC 1 2017

2342. Ferrari, P., Upadhyay, S., Shestakov, M.V., (...), Lievens, P.,Janssens, E. Wavelength-Dependent Nonlinear Optical Pro-perties of Ag Nanoparticles Dispersed in a Glass Host, 2017Journal of Physical Chemistry C 121(49), pp. 27580-27589

2341. Wang, XN; Fu, SC; Zhang, XT; Han, XX; Liu, SY; Kang, LH;Zhang, Y; Liu, YC Visible laser-assisted reduction of plasmo-nic Ag nanoparticles with narrow-band optical absorptionfor colored holographic reconstruction, 2017 Optics Express25(25), pp. 31253-31262

2340. Singh, A.K. Comparative therapeutic e�ects of plant-extractsynthesized and traditionally synthesized gold nanoparti-cles on alcohol-induced in�ammatory activity in sh-sy5ycells in vitro 2017 Biomedicines 5(4),70

2339. Malkhasian, A.Y.S., Narasimharao, K. Structural and pho-tocatalytic properties of Pd-deposited semiconductors withdi�erent morphology , 2017 RSC Advances 7(88), pp.55633-55645

2338. Ramirez, EVG; Hernandez, SA; Martinez, D; Diaz, G; Esqueda,JA Third order nonlinear optics in Ag nanocubes: local andnonlocal optical responses as a function of excitation wa-velength and particle size, OPTICS EXPRESS, 25 (25):31064-31076; 10.1364/OE.25.031064 DEC 11 2017

2337. Chen, M., He, Y., Wang, X., Hu, Y. Numerically investiga-ting the optical properties of plasmonic metallic nanoparti-cles for e�ective solar absorption and heating, 2018 SolarEnergy 161, pp. 17-24

2336. Hulkoti, NI; Taranath, TC PHYTO-FABRICATION OF SILVER NA-NOPARTICLES BY DIFFERENT PHYSICO-CHEMICAL PARAME-TRES USING PETREA VOLUBILIS L. LEAF BROTH AND EVALUA-TION OF THEIR ANTI-MICROBIAL ACTIVITY, INTERNATIONALJOURNAL OF PHARMACEUTICAL SCIENCES AND RESEARCH,8 (10):4261-4272; 10.13040/IJPSR.0975-8232.8(10).4261-72OCT 2017

2335. Sumi, MB; Devadiga, A; Shetty, KV; Saidutta, MB Solar pho-tocatalytically active, engineered silver nanoparticle synt-hesis using aqueous extract of mesocarp of Cocos nucifera(Red Spicata Dwarf), JOURNAL OF EXPERIMENTAL NANOS-CIENCE, 12 (1):14-32; 10.1080/17458080.2016.1251622 2017

2334. Wong, RJ; Tsounis, C; Scott, J; Low, GKC; Amal, R Pro-moting Catalytic Oxygen Activation by Localized SurfacePlasmon Resonance: E�ect of Visible Light Pre-treatmentand Bimetallic Interactions, CHEMCATCHEM, 10 (1):287-295;10.1002/cctc.201701238 JAN 9 2018

2333. e Antoni, LO; de Menezes, EW; Loguercio, LF; Rodrigues,MRF; de Andrade, RL; Costa, TMH; Benvenutti, EV; Santos,JFL; Santos, MJL Ionic silsesquioxane-capped Au nanoparti-cle powders: Application in P3HT/PCBM solar cells and thee�ect of the capping layer on surface plasmon dumping,Materials Chemistry and Physics, 206, pp. 204-212.

2332. Gutierrez, Y; de la Osa, RA; Ortiz, D; Saiz, JM; Gonzalez,F; Moreno, F Plasmonics in the ultraviolet with aluminum,gallium, magnesium and rhodium, Applied Sciences (Swit-zerland), 8(1), art. no. 64.

2331. Fales, AM; Vogt, WC; Pfefer, J; Ilev, IK Quantitative Evalua-tion of Nanosecond Pulsed Laser-Induced Photomodi�ca-tion of Plasmonic Gold Nanoparticles, SCIENTIFIC REPORTS,7 10.1038/s41598-017-16052-7 NOV 16 2017

2330. Gonome, H; Nakamura, M; Okajima, J; Maruyama, S Arti�-cial chameleon skin that controls spectral radiation: Deve-lopment of Chameleon Cool Coating (C-3), SCIENTIFIC RE-PORTS, 8 10.1038/s41598-018-19498-5 JAN 19 2018

2329. Sharma, R; Roopak, S; Pathak, NK; Uma, R; Sharma, RP Nu-merical Simulation of Electromagnetic Wave Interaction withSpheroidal Core-Shell Nanoparticle: Dependence of Surface


Plasmon Resonance on Core-Shell Composition, PLASMO-NICS, 13 (1):335-343; 10.1007/s11468-017-0518-0 FEB 2018

2328. Subhan, MA; Saha, PC; Rahman, MM; Ahmed, J; Asiri, AM;Al-Mamun, M Fabrication of a 2,4-dinitrophenol sensor ba-sed on Fe3O4@Ag@Ni nanomaterials and studies on theirantibacterial properties, NEW JOURNAL OF CHEMISTRY, 42(2):872-881; 10.1039/c7nj04378c JAN 21 2018

2327. Tzarouchis, DC; Yla-Oijala, P; Sihvola, A Study of Plas-monic Resonances on Platonic Solids, RADIO SCIENCE, 52(12):1450-1457; 10.1002/2017RS006378 DEC 2017

2326. Wilke, CM; Gaillard, JF; Gray, KA The critical role of light inmoderating microbial stress due to mixtures of engineerednanomaterials, ENVIRONMENTAL SCIENCE-NANO, 5 (1):96-102; 10.1039/c7en00527j JAN 2018

2325. Zapata-Herrera, M; Florez, J; Camacho, AS; Ramirez, HYQuantum Con�nement E�ects on the Near Field Enhan-cement in Metallic Nanoparticles, PLASMONICS, 13 (1):1-7;10.1007/s11468-016-0476-y FEB 2018

2324. Sharma, H; Singhal, R Synthesis of Ag metallic nanoparti-cles by 120keV Ag- ion implantation in TiO2 matrix, RADIA-TION EFFECTS AND DEFECTS IN SOLIDS, 172 (11-12):896-902;10.1080/10420150.2017.1418349 2017

2323. Gu, QC; Xu, BW; Zhao, H; Hu, S; Jiang, XX; Lv, JT Plas-monic Photothermal E�ects Based on Dynamic Optical Fil-tering, NANOSCIENCE AND NANOTECHNOLOGY LETTERS, 9(11):1605-1621; 10.1166/nnl.2017.2535 NOV 2017

2322. Oh, Y; Lee, J; Lee, M Fabrication of Ag-Au bimeta-llic nanoparticles by laser-induced dewetting of bila-yer �lms, APPLIED SURFACE SCIENCE, 434 1293-1299;10.1016/j.apsusc.2017.11.245 MAR 15 2018

2321. Jung, YJ; Metreveli, G; Park, CB; Baik, S; Schaumann, GE Im-plications of Pony Lake Fulvic Acid for the Aggregation andDissolution of Oppositely Charged Surface-Coated SilverNanoparticles and Their Ecotoxicological E�ects on Daph-nia magna, ENVIRONMENTAL SCIENCE & TECHNOLOGY, 52(2):436-445; 10.1021/acs.est.7b04635 JAN 16 2018

2320. Nasrollahzadeh, M., Sajjadi, M., Sajadi, S.M. Biosynthesisof copper nanoparticles supported on manganese dioxidenanoparticles using Centella asiatica L. leaf extract for thee�cient catalytic reduction of organic dyes and nitroarenes,Chinese Journal of Catalysis, 39(1), pp. 109-117 (2018).

2319. Shiratsu, T., Yao, H. Size dependence of magneto-opticalactivity in silver nanoparticles with dimensions between 10and 60 nm studied by MCD spectroscopy, 2018 PhysicalChemistry Chemical Physics 20(6), pp. 4269-4276

2318. Nair, A.K., Bhavitha, K.B., Perumbilavil, S., (...), Thomas,S., Kalarikkal, N. Multifunctional nitrogen sulfur co-dopedreduced graphene oxide ? Ag nano hybrids (sphere, cubeand wire) for nonlinear optical and SERS applications, 2018Carbon 132, pp. 380-393

ARTICULO (citas 561):

Optical Properties of Metal Nanoparticles with ArbitraryShapes, Ivan O. Sosa, Cecilia Noguez, R. G. Barrera, J PhysChem B 107, 6269 – 6275 (2003).

TIPO A (559):

2317. Q. Zhao, L. Hou, C. Zhao, S. Gu, R. Huang, and S. Ren, Con-version of silver nanoprisms into colloidal nanoparticles in-duced by femtosecond laser pulses, Laser Phys. Lett. 1, 115(2004).

2316. Huang YJ, Di L, Li JH beta-cyclodextrin controlled assem-bling nanostructures from gold nanoparticles to gold nano-wires Chem Phys Lett 389 (1-3): 14-18 (2004).

2315. Wiley B, Herricks T, Sun YG, et al. Polyol synthesis of sil-ver nanoparticles: Use of chloride and oxygen to promotethe formation of single-crystal, truncated cubes and tetra-hedrons Nano Letters 4, 1733 (2004)

2314. Salzemann, C.; Lisiecki, I.; Brioude, A.; Urban, J.; Pileni, M.-P.,Collections of Copper Nanocrystals Characterized by Di�e-rent Sizes and Shapes: Optical Response of These Nanoob-jects, J. Phys. Chem. B. 108 13242 (2004).

2313. Kim F, Connor S, Song H, Kuykendall T, Yang PD, Platonicgold nanocrystals, Angewandte Chemie-International Edi-tion 43, 3673 (2004)

2312. R. Lopez, L. C. Feldman, and R. F. Haglund, Jr., Size-Dependent Optical Properties of VO2 Nanoparticle Arrays,Phys. Rev. Lett. 93, 177403 (2004)

2311. E. Hutter, and J. H. Fendler, Exploitation of localized surfaceplasmon resonance, Advanced Materials 16, 1685 (2004).

2310. A. Biswas, O.C. Aktas, J. Kanzow, U. Saeed, T. Strunskus, V.Zaporovchenko, F. Faupel, Material Letters 58, 1530 (2004).

2309. Slistan-Grijalva A, Herrera-Urbina R, Rivas-Silva JF, et al. As-sessment of growth of silver nanoparticles synthesized froman ethylene glycol-silver nitrate-polyvinylpyrrolidone solu-tion, Physica E-Low-Dimensional Systems& Nanostructures25, 438 (2005)

2308. Wiley B, Sun YG, Mayers B, Xia YN, Shape-controlled synthe-sis of metal nanostructures: The case of silver, Chemistry-AEuropean Journal 11 454 (2005)


2307. J. Chen, F. Saeki, B. J. Wiley, H. Cang, M. J. Cobb, Z.-Y. Li, L. Au,H. Zhang, M. B. Kimmey, X. Li, and Y. Xia, Gold Nanocages:Bioconjugation and Their Potential Use as Optical ImagingContrast Agents, Nano Lett. 5, 473 (2005)

2306. C. Salzemann, J. Lerme, J. Urban, and I. Lisiecki, Is It PossibleTo Correlate a Collection of Copper Nanocrystals with TheirOptical Response?, Chem. Mater. 17, 1279 (2005).

2305. Lakowicz JR, Radiative decay engineering 5: metal-enhanced �uorescence and plasmon emission AnalyticalBiochemistry 337, 171 (2005)

2304. V. Germain, A. Brioude, D. Ingert, and M. P. Pileni, Silver na-nodisks: Size selection via centrifugation and optical pro-perties, J. Chem. Phys. 122, 124707 (2005)

2303. Wu, QS; Zhao, Y; Zhang, CB, Preparation of triangular silvernanoplates and factors a�ecting the size and shape of slivernanoporticles, Chem. J. of Chinese Universities-Chinese 26,407 (2005)

2302. Xia YN, Halas NJ, Shape-controlled synthesis and surfaceplasmonic properties of metallic nanostructures, MRS Bulle-tin 30, 338 (2005)

2301. Xiong, Y.; Chen, J.; Wiley, B.; Xia, Y.; Yin, Y.; Li, Z.-Y.; , Size-Dependence of Surface Plasmon Resonance and Oxidationfor Pd Nanocubes Synthesized via a Seed Etching Process,Nano Lett.; 5 1237 (2005)

2300. Brioude, A.; Jiang, X. C.; Pileni, M. P.; Optical Propertiesof Gold Nanorods: DDA Simulations Supported by Experi-ments, J. Phys. Chem. B. 109 13138 (2005)

2299. Im SH, Lee YT, Wiley B, et al.Large-scale synthesis of silvernanocubes: The role of HCl in promoting cube perfectionand monodispersity , Angewandte Chemie-InternationalEdition 44, 2154 (2005)

2298. Murphy, C. J.; Sau, T. K.; Gole, A. M.; Orendor�, C. J.; Gao, J.;Gou, L.; Hunyadi, S. E.; Li, T.; Anisotropic Metal Nanoparti-cles: Synthesis, Assembly, and Optical Applications, J. Phys.Chem. B. (Review) 109, 13857 (2005)

2297. Y T Lee, S H Im, B Wiley, Y Xia, Quick formation of single-crystal nanocubes of silver through dual functions of hy-drogen gas in polyol synthesis, Chemical Physics Letters 11,479 (2005)

2296. A. P. Herrera, O. Resto, J. G. Briano and C. Rinaldi, Synt-hesis and agglomeration of gold nanoparticles in reversemicelles, Nanotechnology 16 (2005) S618

2295. Wu Q., Zhao Y., Zhang C., Two formation modes of trian-gular silver nanoplates without light irradiation Cailiao Yan-jiu Xuebao/Chinese Journal of Materials Research, 19 , 230(2005)

2294. Kumbhar, A. S.; Kinnan, M. K.; Chumanov, G.; Multipole Plas-mon Resonances of Submicron Silver Particles, J. Am. Chem.Soc. 127 12444 (2005)

2293. He, Y.; Shi, G.; Surface Plasmon Resonances of Silver Trian-gle Nanoplates: Graphic Assignments of Resonance Modesand Linear Fittings of Resonance Peaks, J. Phys. Chem. B.109 17503 (2005)

2292. Synthesis and Agglomeration of gold nanoparticles in Re-verse Micelles, by Adriana Patricia Herrera Barros A thesissubmitted in partial ful�llment of the requirements for thedegree of Master of Science in Chemical Engineering, Uni-versity of Puerto Rico Mayaguez Campus 2005

2291. Chen, Y., Gu, X., Nie, C.-G., Jiang, Z.-Y., Xie, Z.-X., Lin, C.-J.,Shape controlled growth of gold nanoparticles by a solutionsynthesis , Chemical Communications 33, 4181 (2005).

2290. H. Yao, K. Miki, N. Nishida, A. Sasaki, and K. Kimura, LargeOptical Activity of Gold Nanocluster Enantiomers Inducedby a Pair of Optically Active Penicillamines, J. Am. Chem.Soc. 127, 15536 (2005)

2289. Y. Xiong, B. Wiley, J. Chen, Z.-Y. Li, Y. Yin, Y. Xia, Corrosion-Based Synthesis of Single-Crystal Pd Nanoboxes and Nano-cages and Their Surface Plasmon Properties, AngewandteChemie International Edition 44, 7913 (2005)

2288. Brioude, A.; Pileni, M. P., Silver Nanodisks: Optical PropertiesStudy Using the Discrete Dipole Approximation Method, J.Phys. Chem. B. 109, 23371 (2005)

2287. Xiong, Y.; McLellan, J. M.; Chen, J.; Yin, Y.; Li, Z.-Y.; Xia, Y.,Kinetically Controlled Synthesis of Triangular and Hexago-nal Nanoplates of Palladium and Their SPR/SERS Properties, J. Am. Chem. Soc. 127, 17118 (2005)

2286. X.C. Jiang, A. Brioude and M.P. Pileni, Gold nanorods: Limi-tations on their synthesis and optical properties, Colloidsand Surfaces A 277, 201 (2006)

2285. V. Bastys, I. Pastoriza-Santos, B. Rodrıguez-Gonzalez, R.Vaisnoras, L. M. Liz-Marzan, Formation of Silver Nanoprismswith Surface Plasmons at Communication Wavelengths, Ad-vanced Functional Materials 16, 766 (2006).

2284. Salzemann, C.; Brioude, A.; Pileni, M-P.; Tuning of CopperNanocrystals Optical Properties with Their Shapes, J. Phys.Chem. B 110, 7208 (2006)

2283. Zhou, G., Lu, M., Yang, Z., Zhang, H., Zhou, Y., Wang,S., Wang, S., Zhang, A.; Surfactant-assisted synthesis andcharacterization of silver nanorods and nanowires by anaqueous solution approach, Journal of Crystal Growth 289,255, (2006).


2282. Joseph R. Lakowicz, Principles of Fluorescence Spectros-copy, Springer; 3rd ed. edition (2006).

2281. Railing Chang and P. T. Leung , Nonlocal e�ects on opticaland molecular interactions with metallic nanoshells, Phys.Rev. B 73, 125438 (2006)

2280. Zhou, M; Chen, SH; Zhao, SY; Synthesis of icosahedral goldnanocrystals: A thermal process strategy, J. Phys. Chem. B110, 4510 (2006)

2279. Andrea Tao, Prasert Sinsermsuksakul, Peidong Yang, Polyhe-dral Silver Nanocrystals with Distinct Scattering Signatures,Angewandte Chemie International Edition 45, 4597 (2006)

2278. I. Washio, Y. Xiong, Y. Yin, Y. Xia, Reduction by the EndGroups of Poly(vinyl pyrrolidone): A New and Versatile Rou-te to the Kinetically Controlled Synthesis of Ag TriangularNanoplates, Advanced Materials 18, 1745 (2006)

2277. Yao, H.; Minami, T.; Hori, A.; Koma, M.; Kimura, K., FivefoldSymmetry in Superlattices of Monolayer-Protected Gold Na-noparticles, J. Phys. Chem. B 110, 14040 (2006)

2276. Kooij, ES; Poelsema, B; Shape and size e�ects in the opticalproperties of metallic nanorods, Phys. Chem. Chem. Phys.8, 3349 (2006).

2275. G. D. Mahan , Nanoscale dielectric constants: Dipole sum-mations and the dielectric function in nanowires and quan-tum dots of cubic materials, Phys. Rev. B 74, 033407 (2006).

2274. Margueritat, J.; Gonzalo, J.; Afonso, C. N.; Mlayah, A.; Mu-rray, D. B.; Saviot, L., Surface Plasmons and Vibrationsof Self-Assembled Silver Nanocolumns, Nano Lett. 6, 2037(2006)

2273. S. Eustis, M. A. El-Sayed, Determination of the aspect ra-tio statistical distribution of gold nanorods in solution froma theoretical �t of the observed inhomogeneously broade-ned longitudinal plasmon resonance absorption spectrum,J. Appl. Phys. 100, 044324 (2006).

2272. Wong, V.; Ratner, M. A., Geometry Dependent Features ofOptically Induced Forces between Silver Nanoparticles, J.Phys. Chem. B.; 110, 19243 (2006)

2271. Elechiguerra, J.L., Reyes-Gasga, J., Yacaman, M.J.; The roleof twinning in shape evolution of anisotropic noble metalnanostructures, J of Materials Chemistry 16, 3906 (2006)

2270. Hunyadi, S.E., Murphy, C.J.; Bimetallic silver-gold nanowires:Fabrication and use in surface-enhanced Raman scattering,J of Materials Chemistry 16, 3929 (2006)

2269. Stone, J. W.; Sisco, P. N.; Goldsmith, E. C.; Baxter, S. C.;Murphy, C. J.; Using Gold Nanorods to Probe Cell-InducedCollagen Deformation, Nano Lett. 7, 116 (2007)

2268. S. Kundu, S. Panigrahi, S. Praharaj, S. Basu, S. Kumar Ghosh,A. Pal and A. Pal, Anisotropic growth of gold clusters togold nanocubes under UV irradiation, Nanotechnology 18,075712 (2007)

2267. Q. Zeng, X. Jiang, A. Yu and G. (Max) Lu, Growth mecha-nisms of silver nanoparticles: a molecular dynamics study,Nanotechnology 18 035708 (2007)

2266. Luechinger, N. A.; Loher, S.; Athanassiou, E. K.; Grass, R. N.;Stark, W. J., Highly Sensitive Optical Detection of Humidityon Polymer/Metal Nanoparticle Hybrid Films, Langmuir 23,3473 (2007)

2265. C Chen, L Wang, H Yu, J Wang, J Zhou, Q Tan, L Deng,Morphology-controlled synthesis of silver nanostructuresvia a seed catalysis process, Nanotechnology 18, 115612(2007)

2264. Pompa PP, Martiradonna L, Della Torre A, Della Sala F, Man-na L, De Vittorio M, Calabi F, Cingolani R, Rinaldi R, Metal-enhanced �uorescence of colloidal nanocrystals with na-noscale control, Nature Nanotechnology 1 126 (2006)

2263. Sabanayagam CR, Lakowicz JR, Increasing the sensitivityof DNA microarrays by metal-enhanced �uorescence usingsurface-bound silver nanoparticles, Nucleic Acids Research35, Art. E13 (2007)

2262. Jena, B. K.; Raj, C. R., Synthesis of Flower-like Gold Nanopar-ticles and Their Electrocatalytic Activity Towards the Oxida-tion of Methanol and the Reduction of Oxygen, Langmuir23, 4064 (2007)

2261. Pal, S., Tak, Y.K., Song, J.M., Does the antibacterial activityof silver nanoparticles depend on the shape of the nano-particle? A study of the gram-negative bacterium Escheri-chia coli, Applied and Environmental Microbiology 73, 1712(2007)

2260. Y. Zhou, H. Xu, A. B. Dahlin, J. Vallkil, C. A. K. Borrebaeck, C.Wingren, B. Liedberg, and F. Hook, Quantitative interpre-tation of gold nanoparticle-based bioassays designed fordetection of immunocomplex formation, Biointerphases 2,6 (2007)

2259. J. H. Zhang, H. Y. Liu, P. Zhan, Z. L. Wang, N. B. Ming, Con-trolling the Growth and Assembly of Silver Nanoprisms, Ad-vanced Functional Materials 17, 1558 (2007)

2258. Nishida, N.; Yao, H.; Ueda, T.; Sasaki, A.; Kimura, K. Synthe-sis and Chiroptical Study of D/L-Penicillamine-Capped SilverNanoclusters, Chem. Mater. 19, 2831 (2007)

2257. Pyatenko, A.; Yamaguchi, M.; Suzuki, M., Synthesis of Sphe-rical Silver Nanoparticles with Controllable Sizes in AqueousSolutions, J. Phys. Chem. C 111, 7230 (2007)


2256. Boris N. Khlebtsov, Andrei Melnikov and Nikolai G. Khleb-tsov, On the extinction multipole plasmons in gold nano-rods, Journal of Quantitative Spectroscopy and RadiativeTransfer 107, 306 (2007)

2255. Yu, C.; Varghese, L.; Irudayaraj, J, Surface Modi�cation ofCetyltrimethylammonium Bromide-Capped Gold Nanorodsto Make Molecular Probes, Langmuir 23, 9114 (2007)

2254. Khlebtsov, B. N.; Khlebtsov, N. G, Multipole Plasmons in Me-tal Nanorods: Scaling Properties and Dependence on Parti-cle Size, Shape, Orientation, and Dielectric Environment, J.Phys. Chem. C 111, 11516 (2007)

2253. Barrientos, L., Merchan, J., Yutronic, N., Jara, P., Selectiveadhesion of gold nanoparticles onto microcrystal faces ofcyclodextrin/octanethiol inclusion compound produced bymagnetron sputtering, 2007 NSTI Nanotechnology Confe-rence and Trade Show - NSTI Nanotech 2007, Technical Pro-ceedings 4, pp. 285 (2007)

2252. V.V. Klimov and D.V. Guzatov, Pasmonic atoms and plasmo-nic molecules, Journal Applied Physics A: Materials Science& Processing, 89, 305 (2007)

2251. Margueritat, J; Gonzalo, J; Afonso, CN; Bachelier, G; Mla-yah, A; Laarakker, AS; Murray, DB; Saviot, L.; From silvernanolentils to nanocolumns: surface plasmon-polaritonsand con�ned acoustic vibrations, Applied Phys. A-MaterialsScience & Processing 89, 369 (2007)

2250. Zhang, TW; Zhang, L; Yang, SC; Yang, ZN; Ding, BJ;Shape-controlled synthesis and applications of silver nano-particles, Rare Metal Materials & Engineering 36 (8): 1495(2007).

2249. Barrientos L, Yutronic N, del Monte F, et al. Ordered arran-gement of gold nanoparticles on an alpha-cyclodextrin -dodecanethiol inclusion compound produced by magnetronsputtering, New Journal of Chemistry 31, 1400 (2007)

2248. Y. Xiong, Y. Xia, Shape-Controlled Synthesis of Metal Na-nostructures: The Case of Palladium, Advanced Materials 19,3385 (2007)

2247. Nitin N, Javier DJ, Roblyer DM, et al. Wide�eld and high-resolution re�ectance imaging of gold and silver nanosphe-res, Journal of Biomedical Optics 12, Art. No. 051505 (2007)

2246. Zheng, X.; Xu, W.; Corredor, C.; Xu, S.; An, J.; Zhao, B.;Lombardi, J. R.; Laser-Induced Growth of Monodisperse Sil-ver Nanoparticles with Tunable Surface Plasmon Resonan-ce Properties and a Wavelength Self-Limiting E�ect, J. Phys.Chem. C 111, 14962 (2007)

2245. N. V. Grishina, Yu. A. Eremin and A. G. Sveshnikov, Investiga-tion of the resonance properties of nanodimensional rods

by the method of discrete sources, Moscow University Phy-sics Bulletin 62, 37 (2007)

2244. Golightly, J.S., Castleman Jr., A.W., Synthesis of zirconiumnanoparticles by ultrafast laser ablation, Zeitschri� fur Phy-sikalische Chemie 221, 1455 (2007)

2243. Lim, B., Xiong, Y., Xia, Y.; A water-based synthesis of octa-hedral, decahedral, and icosahedral Pd nanocrystals, An-gewandte Chemie - International Edition 46, 9279 (2007)

2242. Liu, P.; Cao, Y. L.; Cui, H.; Chen, X. Y.; Yang, G. W.; Micro-and Nanocubes of Silicon with Zinc-Blende Structure, Chem.Mater. 20, 494 (2008)

2241. C. J. Murphy, A. M. Gole, S. E. Hunyadi, J. W. Stone, P. N.Sisco, A. Alkilany, B. E. Kinard, P. Hankins, Chemical sensingand imaging with metallic nanorods, Chem. Commun. 5, 544(2008)

2240. Mantion A, Guex AG, Foelske A, et al., Silver nanoparticleengineering via oligovaline organogels, So� Matter 4, 606(2008)

2239. Stewart, M. E.; Anderton, C. R.; Thompson, L. B.; Maria, J.;Gray, S. K.; Rogers, J. A.; Nuzzo, R. G. Nanostructured Plas-monic Sensors, Chem. Rev. (Review) 108, 494 (2008)

2238. Sun, J.; Guan, M.; Shang, T.; Gao, C.; Xu, Z.; Zhu, J. Selecti-ve Synthesis of Gold Cuboid and Decahedral NanoparticlesRegulated and Controlled by Cu2+ Ions, Cryst. Growth Des.8, 906 (2008)

2237. Nishida, N.; Yao, H.; Kimura, K., Chiral Functionalization ofOptically Inactive Monolayer-Protected Silver Nanoclustersby Chiral Ligand-Exchange Reactions, Langmuir 24, 2759(2008)

2236. Yao H, Optically active gold nanoclusters, Current Nanos-cience 4, 92 (2008)

2235. Henry, Kiely, Sir Thomas , Russell, Ricolleau, Bond, Geng ,Mattei, Johnston , Mejia , Lievens, Ferrando, Henry, Leiva ,El-Shall, Fortunelli, Broyer, Jellinek, Langlois, Baletto , Geng, Hou, Hampe, Ellis, Scho�eld, Hutchings, Johnson, Pastor,Marsault, Baletto General Discussion, Faraday Discussions138, 421 (2008)

2234. Rogers, P. H.; Sirinakis, G.; Carpenter, M. A.; Direct Observa-tions of Electrochemical Reactions within Au-YSZ Thin Filmsvia Absorption Shi�s in the Au Nanoparticle Surface Plas-mon Resonance, J. Phys. Chem. C 112, 6749 (2008)

2233. Murphy, CJ; Sustainability as an emerging design criterionin nanoparticle synthesis and applications, J Materials Che-mistry 18, 2173 (2008)


2232. Dorjnamjin, D; Ariunaa, M; Shim, YK; Synthesis of silver na-noparticles using hydroxyl functionalized ionic liquids andtheir antimicrobial activity, International Journal of Molecu-lar Sciences 9 (5): 807 (2008)

2231. Zhang, Z.-H., Shi, L.-Y., Dai, K., Yu, X.-X., Zhu, W.-D.; Study onpreparation and properties of a new nano-size conductiveadhesive, Gongneng Cailiao/Journal of Functional Materials39, 337 (2008).

2230. W.C. Zhang, X.L. Wu, H.T. Chen, Y.J. Gao, J. Zhu, G.S. Huang,Paul K. Chu, Self-organized formation of silver nanowires,nanocubes and bipyramids via a solvothermal method, ActaMaterialia 56, 2508 (2008)

2229. Rogers, P. H.; Sirinakis, G.; Carpenter, M. A. Plasmonic-basedDetection of NO2 in a Harsh Environment, J. Phys. Chem. C.112, 8784 (2008)

2228. Muskens, O. L.; Bachelier, G.; Del Fatti, N.; Vallee, F.; Brioude,A.; Jiang, X.; Pileni, M.-P. Quantitative Absorption Spectros-copy of a Single Gold Nanorod, J. Phys. Chem. C. 112, 8917(2008)

2227. E. Jimenez, K. Abderra�, J. Martınez-Pastor, R. Abargues, J LValdes, R Ibanez, A novel method of nanocrystal fabricationbased on laser ablation in liquid environment Superlatticesand Microstructures 43, 487 (2008)

2226. Xu, W., Liew, K.Y., Liu, H., Huang, T., Sun, C., Zhao, Y.,Microwave-assisted synthesis of nickel nanoparticles, Ma-terials Letters 62, 2571 (2008).

2225. Sato, R., Redon, R., Vazquez, A., Flores, O., Zanella, R., Sa-niger, J.; Variations in optical properties of silver nanoparti-cles. Application in surface enhanced Raman spectroscopy,AIP Conference Proceedings 992, 1232 (2008).

2224. J Ye, C Chen, W Van Roy, P Van Dorpe, G Maes, G Borghs; Thefabrication and optical property of silver nanoplates withdi�erent thicknesses, Nanotechnology 19 325702 (2008)

2223. Lundhal, P; Stokes, R; Smith, E; Martin, R; Graham, D; Synt-hesis and characterisation of monodispersed silver nano-particles with controlled size ranges, Micro & Nano Letters3, 62 (2008)

2222. Y. Hu, J. Ge, D. Lim, T. Zhang, Y. Yin, Size-controlled synthesisof highly water-soluble silver nanocrystals, Journal of SolidState Chemistry 181, 1524 (2008)

2221. Hsieh, K. C.; Chen, H. L.; Wan, D. H.; Shieh, J. Active Mo-dulation of Surface Plasmon Resonance Wavelengths byApplying an Electric Field to Gold Nanoparticle-EmbeddedFerroelectric Films J. Phys. Chem. C. 112 11673 (2008)

2220. Wang, W.; Cui, H. Chitosan-Luminol Reduced Gold Nano�o-wers: From One-Pot Synthesis to Morphology-DependentSPR and Chemiluminescence Sensing, J. Phys. Chem. C. 11210759 (2008)

2219. Uechi, I; Yamada, S Photochemical and analytical applica-tions of gold nanoparticles and nanorods utilizing surfaceplasmon resonance, Analytical and Bioanalytical Chemistry391, 2411(2008)

2218. Kan, CX; Zhu, JJ; Zhu, XG, Silver nanostructures with well-controlled shapes: synthesis, characterization and growthmechanisms, J. Physics D: Appl. Phys. 41, 155304 (2008)

2217. Blaber, M.G., Harris, N., Ford, M.J., Cortie, M.B. Optimisa-tion of absorption e�ciency for varying dielectric sphericalnanoparticles, Proceedings of the 2006 International Con-ference on Nanoscience and Nanotechnology, ICONN, art.no. 4143457, pp. 556-559 (2006)

2216. Chegel, V., Chegel, Yu., Guiver, M.D., Lopatynskyi, A., Lo-patynska, O., Lozovski, V., 3D-quanti�cation of biomolecu-lar covers using surface plasmon-polariton resonance ex-periment, Sensors and Actuators, B: Chemical 134 66 (2008)

2215. Gracia-Pinilla, M. A.; Perez-Tijerina, E.; Garcıa, J. A.;Fernandez-Navarro, C.; Tlahuice-Flores, A.; Mejıa-Rosales,S.; Montejano-Carrizales, J. M.; Jose-Yacaman, M. On theStructure and Properties of Silver Nanoparticles, J. Phys.Chem. C. 112, 13492 (2008).

2214. Zhou, J, An, J, Tang, B, Xu, SP, Cao, YX, Zhao, B, Xu, WQ,Chang, JJ, Lombardi, JR, Growth of tetrahedral silver na-nocrystals in aqueous solution and their SERS enhance-ment, Langmuir 24, 10407 (2008)

2213. Lim B, Camargo PHC, Xia YN, Mechanistic study of the synt-hesis of an nanotadpoles, nanokites, and microplates by re-ducing aqueous HAuCl4 with poly(vinyl pyrrolidone), Lang-muir 24, 10437 (2008).

2212. C. Chen, P. Liu, C. Lu, Synthesis and characterization ofnano-sized ZnO powders by direct precipitation method,Chem. Eng. J. 144, 509 (2008).

2211. Zhang, C., Zhang, J., Han, B., Zhao, Y., Li, W. Synthesis of ico-sahedral gold particles by a simple and mild route , GreenChemistry 10, 1094 (2008)

2210. Lakowicz, J.R., Ray, K., Chowdhury, M., Szmacinski, H., Fu, Y.,Zhang, J., Nowaczyk, K., Plasmon-controlled �uorescence: Anew paradigm in �uorescence spectroscopy, Analyst 133,1308 (2008)

2209. Zhang, D.-F.; Niu, L.-Y.; Jiang, L.; Yin, P.-G.; Sun, L.-D.; Zhang,H.; Zhang, R.; Guo, L.; Yan, C.-H., Branched Gold NanochainsFacilitated by Polyvinylpyrrolidone and their SERS E�ects onp-Aminothiophenol, J. Phys. Chem. C. 112, 16011 (2008)


2208. Peng YJ, Zhang SP, Wang YH, Yang YQ, Theoretical inves-tigation on near-infrared and visible absorption spectra ofnanometallic aluminium with oxide coating in nanoenerge-tic materials: size and shape e�ects, Chinese Physics B 17,3505 (2008)

2207. Joshi, M., Bhattacharyya, A., Ali, S.W., Characterization tech-niques for nanotechnology applications in textiles, IndianJournal of Fibre and Textile Research 33, 304 (2008)

2206. Reyes-Esqueda, J.A., Salvador, A.B., Zanella, R., Size con-trol of Au nanoparticles on TiO2 and Al 2O3 by DP Urea:Optical absorption and electron microscopy as control pro-bes, Journal of Nanoscience and Nanotechnology 8, 3843(2008)

2205. Khlebtsov, N.G. Optics and biophotonics of nanoparticleswith a plasmon resonance, Quantum Electronics 38, 504(2008)

2204. Leong, K., Zin, M.T., Ma, H., Huang, F., Sarikaya, M., Jen,A.K.-Y. Bioengineered-inorganic nanosystems for nanopho-tonics and bio-nanotechnology, Proceedings of SPIE - TheInternational Society for Optical Engineering 7040: Nano-biosystems: Processing, Characterization, and Applications,art. no. 704007

2203. Zhou, M., Bron, M., Schuhmann, W., Controlled synthesis ofgold nanostructures by a thermal approach, Journal of Na-noscience and Nanotechnology 8, 3465 (2008)

2202. W. Niu, Z.-Y. Li, L, Shi, X. Liu, H. Li, S. Han, J. Chen, G. Xu,Seed-Mediated Growth of Nearly Monodisperse PalladiumNanocubes with Controllable Sizes, Crystal Growth & Design,8, 4440 (2008)

2201. D C Schinca and L B Sca�ardi Core and shell sizing of smallsilver-coated nanospheres by optical extinction spectros-copy, Nanotechnology 19, 495712 (2008)

2200. Sanchez-Valdes, S.; Ortega-Ortiz, H.; Valle, L. F. Ramos-de;Medellin-Rodriguez, F. J.; Guedea-Miranda, R., Mechanicaland Antimicrobial Properties of Multilayer Films with a Pol-yethylene/Silver Nanocomposite Layer, Journal of AppliedPolymer Science 111, 953 (2009)

2199. Singh, M., Sinha, I., Mandal, R.K.; Role of pH in the greensynthesis of silver nanoparticles, Materials Letters 63, 425(2009)

2198. Qiu LQ, Franc J, Rewari A, Blanc D, Saravanamuttu K; Pho-tolytic formation of Ag nanoparticles in oligomeric organo-siloxanes: new photolithographic routes to metallodielectricmicroperiodic structures Journal of Materials Chemistry19,373 (2009)

2197. Xia, Y; Xiong, YJ; Lim, B; Skrabalak, SE; Shape-ControlledSynthesis of Metal Nanocrystals: Simple Chemistry MeetsComplex Physics?, Angewandte Chemie-International Edi-tion 48, 60 (2009)

2196. Cao M, Wang M, Gu N; Optimized Surface Plasmon Reso-nance Sensitivity of Gold Nanoboxes for Sensing Applica-tions, J. Phys. Chem. C. 113, 1217 (2009)

2195. Gentry ST, Fredericks SJ, Krchnavek R Controlled ParticleGrowth of Silver Sols through the Use of Hydroquinone asa Selective Reducing Agent, Langmuir 25, 2613 (2009).

2194. Jia, Z, Tang Y, Jiang Y, Chen Z; The Controlled Synthesisof Single-Crystalline CdCO3 Nanoparticles with Di�erentMorphologies, J. Nanosci. and Nanotechnol. 9, 1593 (2009)

2193. Pal S, Tak YK, Joardar J, Kim W, Lee JE, Han MS, Song JM; Na-nocrystalline Silver Supported on Activated Carbon Matrixfrom Hydrosol: Antibacterial Mechanism Under ProlongedIncubation Conditions, 9, 2092 (2009)

2192. Rajesh R, Jaya L, Niranjan K, Vijay M, Sahebrao K Phytosynt-hesis of Silver Nanoparticle Using Gliricidia sepium (Jacq.),Current Nanoscience 5, 117 (2009)


2190. Dominquez-Crespo MA, Ramirez-Meneses E, Montiel-PalmaV Synthesis and electrochemical characterization of stabi-lized nickel nanoparticles Int. J. of Hydrogen Energy 34,1664-1676 (2009)

2189. Cao Min, Wang Meng and Gu Ning Calculated Optical Pro-perties of Dielectric Shell Coated Gold Nanorods, ChinesePhys. Lett. 26 045201 (2009)


2187. Sato-Berru, R; Redon, R; Vaquez-Olmos, A; Saniger, JM, Sil-ver nanoparticles synthesized by direct photoreduction ofmetal salts. Application in surface-enhanced Raman spec-troscopy, J. Raman Spectroscopy 40, 376 (2009)

2186. Y-W Ma, Y Zhang, Z-W Wu, L-H Zhang, J Zhang, G-S Jian,and S-F Wu Theoretical studies of the optical properties ofplasmon resonance on silver nanoparticles in the near-�eldoptics, J. Appl. Phys. 105 103101 (2009)


2185. J Sancho-Parramon Surface plasmon resonance broadeningof metallic particles in the quasi-static approximation: a nu-merical study of size con�nement and interparticle interac-tion e�ects, Nanotechnology 20 235706 (2009)

2184. A J Kora, R. Manjusha, J. Arunachalam Superior bactericidalactivity of SDS capped silver nanoparticles: Synthesis andcharacterization, Materials Science and Engineering: C 29,2104 (2009)

2183. Gu, X., Xu, L., Tian, F., Ding, Y. Au-Ag alloy nanoporous na-notubes, Nano Research 2, 386 (2009)

2182. R Yu, T Ren, K Sun, Z Feng, G Li, C Li, Shape-Controlled Cop-per Selenide Nanocubes Synthesized by an ElectrochemicalCrystallization Method, J. Phys. Chem. C 113, 10833 (2009)

2181. Graf, P; Mantion, A; Foelske, A; Shkilnyy, A; Masic, A; Thune-mann, AE; Taubert, A Peptide-Coated Silver Nanoparticles:Synthesis, Surface Chemistry, and pH-Triggered, ReversibleAssembly into Particle Assemblies Chemistry-A EuropeanJournal 15, 5831 (2009)

2180. He, X; Zhao, XJ; Li, YZ; Sui, XT Shape-controlled synthesisfor silver: Triangular/hexagonal nanoplates, chain-like na-noplate assemblies, and nanobelts, J. Matt. Res. 24, 2200(2009).

2179. Wang, HN; Zou, SL, Gain and loss of propagating electro-magnetic wave along a hollow silver nanorod, Phys. Chem.Chem. Phys. 11, 5871 (2009)

2178. Lu, XM; Rycenga, M; Skrabalak, SE; Wiley, B; Xia, YN, Che-mical Synthesis of Novel Plasmonic Nanoparticles, AnnualRev. Phys. Chem. 60, 167 (2009)

2177. Palui, G; Nanda, J; Ray, S; Banerjee, A, Fabrication of Lu-minescent CdS Nanoparticles on Short-Peptide-Based Hy-drogel Nano�bers: Tuning of Optoelectronic Properties,Chemistry-A, European Journal 15, 6902 (2009)

2176. Tang, S., Meng, X., Controllable synthesis of metal particlesby a direct current electrochemical approach, Science inChina, Series E: Technological Sciences 52, 2709 (2009)

2175. Cao, M., Wang, M., Gu, N., Calculated optical properties ofdielectric shell coated gold nanorods , Chinese Physics Let-ters 26, 045201 (2009)

2174. Li, Z., Gu, A., Zhou, Q., Growth of spindle-shaped silver na-noparticles in SDS solutions, Crystal Research and Techno-logy 44, 841 (2009)

2173. Shen, XS; Wang, GZ; Hong, X; Zhu, W, Nanospheres of silvernanoparticles: agglomeration, surface morphology controland application as SERS substrates, Phys. Chem. Chem.Phys. 11, 7450 (2009)

2172. Takenaka, Y; Kitahata, H, Analysis of the growth process ofgold nanorods with time-resolved observation, Phys. Rev. E80, 020601 (2009)

2171. Liu, B., Xing, Y., Sun, X., Liu, X., Hou, S.Y., Microemulsion-mediated solvothermal synthesis and characterization ofNaSn2(PO4)3 nanocubes, Materials Letters 63, 2548 (2009)

2170. Barzegar, M., Habibi-Yangjeh, A., Behboudnia, M. Template-free preparation and characterization of nanocrystallineZnO in aqueous solution of [EMIM][EtSO4] as a low-costionic liquid using ultrasonic irradiation and photocatalyticactivity, Journal of Physics and Chemistry of Solids 70, 1353(2009)

2169. Gurunathan, S., Kalishwaralal, K., Vaidyanathan, R., Venka-taraman, D., Pandian, S.R.K., Muniyandi, J., Hariharan, N.,Eom, S.H. Biosynthesis, puri�cation and characterization ofsilver nanoparticles using Escherichia coli, Colloids and Sur-faces B: Biointerfaces 74, 328 (2009)

2168. JIMENEZ VILLAR ERNESTO [ES]; ABDERRAFI KAMAL [ES];ABARGUES LOPEZ RAFAEL [ES]; MARTINEZ PASTOR JUAN [ES];VALDES NAVARRO JOSE LUIS [ES]; IBANEZ PUCHADES RAFAEL,METHOD FOR THE SYNTHESIS OF INERT METAL NANOPARTI-CLES, Publication number: WO2009030799 (A1)Publicationdate: 2009-03-12, Patente.

2167. Eustis, Susie, Gold and Silver Nanoparticles: Characteriza-tion of their Interesting Optical Properties and the Mecha-nism of their Photochemical Formation, Dissertation, Doctorof Philosophy, 2006-04-28

2166. Alschinger, Matthias, Silbernanoteilchen auf Magnesiu-moxid, Kassel, Universitat, 2006, urn:nbn:de:hebis:34-2006060212803

2165. Wang, ZX; Li, XN; Ren, CL; Yong, ZZ; Zhu, JK; Luo, WY; Fang,XM, Growth of Ag nanocrystals on multiwalled carbon nano-tubes and Ag-carbon nanotube interaction, Science in Chi-na, Series E: Technological Sciences 52, 3215 (2009)

2164. Lee, G.P., Minett, A.I., Innis, P.C., Wallace, G.G. A newtwist: Controlled shape-shi�ing of silver nanoparticles fromprisms to discs, Journal of Materials Chemistry 19, 8294(2009)

2163. D Chen, X Qiao, X Qiu, J Chen, R Jiang, Convenient, ra-pid synthesis of silver nanocubes and nanowires via amicrowave-assisted polyol method, Nanotechnology 21,025607 (2010)

2162. Liu, SQ; Tang, ZY Nanoparticle assemblies for biological andchemical sensing, Journal of Materials Chemistry 20, 24(2010)


2161. Yoon, W.-J., Jung, K.-Y., Liu, J., Duraisamy, T., Revur, R., Teixei-ra, F.L., Sengupta, S., Berger, P.R. Plasmon-enhanced opticalabsorption and photocurrent in organic bulk heterojunctionphotovoltaic devices using self-assembled layer of silvernanoparticles, Solar Energy Materials and Solar Cells 94,128 (2010)

2160. D Chen, X Qiao, X Qiu, J Chen, R Jiang, Convenient synthesisof silver nanowires with adjustable diameters via a solvot-hermal method, Journal of Colloid and Interface Science,344 (2): 286-291 APR 15 2010

2159. S Maiti, D Das, A Shome, P Kumar Das, In�uence of Gold Na-noparticles of Varying Size in Improving the Lipase Activitywithin Cationic Reverse Micelles, Chemistry - A EuropeanJournal 16, 1941 (2010)

2158. N.L. Dmitruk, O.Yu. Borkovskaya, S.V. Mamykin, D.O.Naumenko, V. Meza-Laguna, E.V. Basiuk (Golovataya-Dzhymbeeva), I. Puente Lee, Optical and photoelectrical stu-dies of gold nanoparticle-decorated C60 �lms, Thin SolidFilms 518, 1737 (2010)

2157. R Sarkar, P Kumbhakar, A K Mitra, R A. Ganeev, Synthesisand photoluminescence properties of silver nanowires, Cu-rrent Applied Physics 10, 853 (2010)

2156. Y Marui, T Kida, M Akashi Facile Morphological Control ofCyclodextrin Nano- and Microstructures and Their UniqueOrganogelation Ability, Chem. Mater. 22, 282 (2010)

2155. T Yamauchi, Y Tsukahara, T Sakata, H Mori, T Yanagida, TKawai, Y Wada, Magnetic Cu–Ni (core–shell) nanoparticlesin a one-pot reaction under microwave irradiation, Nanos-cale2 (4): 515-523 2010

2154. D Wrobel , A Dudkowiak, J Goc, Fluorescence Spectroscopyin Optoelectronics, Photomedicine, and Investigation of Bio-molecular Systems, Reviews in Fluorescence 2008 pp. 237-275 (Springer New York, 2010) DOI 10.1007/978-1-4419-1260-2

2153. W-S Liao, X Chen, T Yang, E T. Castellana, J Chen, P S. Cremer,Benchtop chemistry for the rapid prototyping of label-freebiosensors: Transmission localized surface plasmon reso-nance platforms, Biointerphases 4, 80 (2009)

2152. Gu, XH; Cong, X; Ding, Y Platinum-Decorated Au Porous Na-notubes as Highly E�cient Catalysts for Formic Acid Electro-Oxidation, CHEMPHYSCHEM 11 (4): 841-846 MAR 5 2010


2150. Liu, P; Cui, H; Wang, CX; Yang, GW From nanocrystal synt-hesis to functional nanostructure fabrication: laser ablationin liquid, PHYSICAL CHEMISTRY CHEMICAL PHYSICS 12 (16):3942-3952 2010

2149. Gentry, ST; Bezpalko, MW Surface Plasmon Response forAnisotropic Silver Particles with Dimensions Below the Elec-trostatic Limit, JOURNAL OF PHYSICAL CHEMISTRY C 114 (15):6989-6993 APR 22 2010

2148. Surovtsev, N.V., Adichtchev, S.V., Duda, T.A., Pokrovsky, L.D.,Sveshnikova, L.L. New surface-enhanced raman scatteringactive substrate fabricated by use of the langmuir-blodgetttechnique, Journal of Physical Chemistry C 114 (11), pp. 4803(2010)

2147. Aherne, D., Gara, M., Kelly, J.M., Gun’Ko, Y.K. From ag nano-prisms to triangular auag nanoboxes, Advanced FunctionalMaterials 20 (8), pp. 1329-1338 (2010)

2146. Yoon, W.-J., Jung, K.-Y., Liu, J., Duraisamy, T., Revur, R.,Teixeira, F.L., Sengupta, S., Berger, P.R. E�cient poly(3-hexylthiophene)-fullerene derivative bulk heterojunctionphotovoltaic devices using unique self-assembled layer ofAg nanoparticles with controllable particle-to-particle spa-cing, 2009 Conference Record of the IEEE Photovoltaic Spe-cialists Conference , art. no. 5411730, pp. 000081.


2144. Borensztein Y, Delannoy L, Djedidi A, et al. Monitoring ofthe Plasmon Resonance of Gold Nanoparticles in Au/TiO2Catalyst under Oxidative and Reducing Atmospheres, JOUR-NAL OF PHYSICAL CHEMISTRY C 114, 9008 (2010).

2143. Liu Q, Lai LF, Huang HX, et al. High-yield Synthesis of Bran-ched Gold Nanocrystals by a Sodium Diphenylamine-4-Sulfonate Reduction Process in Polyethylene Glycol AqueousSolution, CHINESE JOURNAL OF CHEMISTRY 28, 537 (2010)

2142. Chu WH, Chuang YJ, Liu CP, et al. Enhanced spontaneouslight emission by multiple surface plasmon coupling, OP-TICS EXPRESS 18, 9677 (2010)

2141. Shen, SF; Zhao, HW; Huang, CZ; Wu, LP Higher-Order Struc-tures Assembly of Gold Nanorods Caused by Captopril inHigh Ionic Strength Solutions, JOURNAL OF BIOMEDICAL NA-NOTECHNOLOGY 6 (1): 66-72 FEB 2010

2140. Chapman, J.; Weir, E.; Regan, F. Period four metal nanopar-ticles on the inhibition of biofouling, Colloids and SurfacesB: Biointerfaces, 78 (2), p.208-216, Jul 2010


2139. Peh, C.K.N.; KE, L.; Ho, G.W. Modi�cation of ZnO nanorodsthrough Au nanoparticles surface coating for dye-sensitizedsolar cells applications, Materials Letters, 64 (12), p.1372-1375, Jun 2010

2138. Yurkin, MA; de Kanter, D; Hoekstra, AG Accuracy of the dis-crete dipole approximation for simulation of optical proper-ties of gold nanoparticles, JOURNAL OF NANOPHOTONICS 4:Art. No. 041585 FEB 5 2010

2137. Dubey, S.P., Lahtinen, M., Sillanpaa, M Green synthesis andcharacterizations of silver and gold nanoparticles using leafextract of Rosa rugosa, 2010 Colloids and Surfaces A: Phy-sicochemical and Engineering Aspects 364 (1-3), pp. 34-41

2136. Chong, Y.Y., Coh, W.B., Tan, S.T., Fan, W.Y. Catalytic rate en-hancement observed for alkyne hydrocarboxylation usingruthenium carbonyl-capped nanostructures, 2010, Journalof Colloid and Interface Science 348 (2), pp. 559-564

2135. Zhang, WC; Wu, XL; Kan, CX; Pan, FM; Chen, HT; Zhu, J; Chu,PK Surface-enhanced Raman scattering from silver nanos-tructures with di�erent morphologies, APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING 100 (1): 83-88 JUL 2010

2134. Kumar, CG; Mamidyala, SK; Das, B; Sridhar, B; Devi, GS; Ka-runa, MS Synthesis of Biosurfactant-Based Silver Nanopar-ticles with Puri�ed Rhamnolipids Isolated from Pseudomo-nas aeruginosa BS-161R, JOURNAL OF MICROBIOLOGY ANDBIOTECHNOLOGY 20 (7): 1061-1068 JUL 2010

2133. Bawaskar, M; Gaikwad, S; Ingle, A; Rathod, D; Gade, A; Du-ran, N; Marcato, PD; Rai, M A New Report on Mycosynthesisof Silver Nanoparticles by Fusarium culmorum, CURRENTNANOSCIENCE 6 (4): 376-380 AUG 2010

2132. Chen, B; Jiao, XL; Chen, DR Size-Controlled and Size-Designed Synthesis of Nano/Submicrometer Ag Particles,CRYSTAL GROWTH & DESIGN 10 (8): 3378-3386 AUG 2010

2131. Kar, T; Dutta, S; Das, PK, pH-Triggered conversion of so� na-nocomposites: in situ synthesized AuNP-hydrogel to AuNP-organogel,SOFT MATTER 6 (19): 4777-4787 2010

2130. Jaidev, L.R., Narasimha, G. Fungal mediated biosynthesis ofsilver nanoparticles, characterization and antimicrobial ac-tivity, (2010) Colloids and Surfaces B: Biointerfaces, 81 (2)pp. 430-433.

2129. Sifontes, AB; Melo, L; Maza, C; Mendes, JJ; Mediavilla, M; Bri-to, JL; Zoltan, T; Albornoz, A PREPARATION OF SILVER NANO-PARTICLES IN THE ABSENCE OF POLYMER STABILIZERS QUI-MICA NOVA 33 (6): 1266-1269 2010

2128. Lee, GP; Bignell, LJ; Romeo, TC; Razal, JM; Shepherd, RL;Chen, J; Minett, AI; Innis, PC; Wallace, GG The citrate-mediated shape evolution of transforming photomorphic

silver nanoparticles, CHEMICAL COMMUNICATIONS 46 (41):7807-7809 2010

2127. L.-C. Chen, C.-W. Wei, J. S. Souris, S.-H. Cheng, C.-T. Chen,C.-S. Yang, P.-C. Li, and L.-W. Lo Enhanced photoacousticstability of gold nanorods by silica matrix con�nement, J.Biomed. Opt. 15, 016010 (2010)

2126. Tiano, A.L., Koenigsmann, C., Santulli, A.C., Wong, S.S.Solution-based synthetic strategies for one-dimensionalmetal-containing nanostructures, (2010) Chemical Commu-nications, 46 (43) pp. 8093-8130.

2125. Kuo, CW; Wang, CRC Absorption Spectral Simulation of theEnd-to-End Linked Gold Nanorods Chain Structure, CURRENTNANOSCIENCE 6 (6): 619-625 DEC 2010

2124. Kannan, P.; Sampath, S.; John, S.A.; Direct Growth of GoldNanorods on Gold and Indium Tin Oxide Surfaces: Spectral,Electrochemical, and Electrocatalytic Studies, JOURNAL OFPHYSICAL CHEMISTRY C 114 (49): 21114-21122 DEC 16 2010

2123. Logsdail, AJ; Cookson, NJ; Horswell, SL; Wang, ZW; Li, ZY;Johnston, RL Theoretical and Experimental Studies of theOptical Properties of Conjoined Gold-Palladium Nanosphe-res, JOURNAL OF PHYSICAL CHEMISTRY C 114 (49): 21247-21251 DEC 16 2010

2122. Chen, B; Jiao, XL; Chen, DR Fabrication of hollow cubic Agmicroboxes with net-like nano�ber structures and their sur-face plasmon resonance, CRYSTENGCOMM 13 (1): 204-2112011

2121. Zhang, D; Liu, X; Wang, X Synthesis of single-crystal sil-ver slices with predominant (111) facet and their SERS e�ect,Journal of Molecular Structure, 985 (1), p.82, Jan 2011

2120. Peng, H.-I., Miller, B.L. Recent advancements in optical DNAbiosensors: Exploiting the plasmonic e�ects of metal nano-particles, (2011) Analyst, 136 (3) pp. 436-447.

2119. Xiong, Y. Morphological changes in Ag nanocrystals trig-gered by citrate photoreduction and governed by oxidativeetching, (2011) Chemical Communications, 47 (5) pp. 1580-1582.

2118. Yang, P., Portales, H., Pileni, M.-P. Dependence of the loca-lized surface plasmon resonance of noble metal quasisp-herical nanoparticles on their crystallinity-related morpho-logies, (2011) Journal of Chemical Physics, 134 (2), art. no.024507

2117. J L Elechiguerra, J L Burt, J R Morones, A Camacho-Bragado,X Gao, et al. Interaction of silver nanoparticles with HIV-1,Journal of Nanobiotechnology, 2005, Volume 3, Number 1,Pages 1-10


2116. Zeng, J., Tao, J., Li, W., Grant, J., Wang, P., Zhu, Y., Xia, Y. Amechanistic study on the formation of silver nanoplates inthe presence of silver seeds and citric acid or citrate ions,(2011) Chemistry - An Asian Journal, 6 (2) pp. 376-379.

2115. Wang, L., Wu, X., Pei, M., Wu, Z., Li, X., Tao, X. Facile synthe-sis of multi-branched gold nanostructures through a TBAB-assisted route in aqueous solution and their SERS property,(2011) Chinese Journal of Chemistry, 29 (1) pp. 185-190.

2114. Valamanesh, M; Borensztein, Y; Langlois, C; Lacaze, E Subs-trate E�ect on the Plasmon Resonance of Supported FlatSilver Nanoparticles, JOURNAL OF PHYSICAL CHEMISTRY C115 (7): 2914-2922 FEB 24 2011

2113. Graf, P; Mantion, A; Haase, A; Thunemann, AF; Masic, A;Meier, W; Luch, A; Taubert, A, Silici�cation of Peptide-CoatedSilver Nanoparticles-A Biomimetic So� Chemistry Approachtoward Chiral Hybrid Core-Shell Materials, ACS NANO 5 (2):820-833 FEB 2011

2112. Tassadit, A., Macıas, D., Sanchez-Gil, J.A., Adam, P.-M.,Rodriguez-Oliveros, R. Metal nanostars: Stochastic optimi-zation of resonant scattering properties, (2011) Superlatticesand Microstructures, 49 (3) pp. 288-293.

2111. Ahamad, N; Ianoul, A Using Phospholipids To Control In-terparticle Distance in SERS-Active Substrates, JOURNAL OFPHYSICAL CHEMISTRY C 115 (9): 3587-3594 MAR 10 2011



2108. Zhou Fei , Liu Ye and Li Zhi-Yuan Simultaneous low extinctionand high local �eld enhancement in Ag nanocubes, 2011Chinese Phys. B 20 037303

2107. Ramgopal, M., Ch. Saisushma, I.H. Attitalla and A.M. Al-hasin. A facile green synthesis of silver nanoparticlesusing soap nuts, Res. J. Microbiol., 6: 432-438 2011 DOI:10.3923/jm.2011.432.438

2106. Zhao, W., Zhao, X.-P. Preparation and properties of sil-ver dendritic nanostructures array, 2010 Gongneng Cai-liao/Journal of Functional Materials 41 (12), pp. 2157-2160

2105. Chang, SJ; Chen, K; Hua, Q; Ma, YS; Huang, WX Evidence forthe Growth Mechanisms of Silver Nanocubes and Nanowi-res, JOURNAL OF PHYSICAL CHEMISTRY C 115 (16): 7979-7986APR 28 2011

2104. Liu, K; Feng, QM; Ou, LM; Zhang, GF; Lu, YP Simulationon Surface Plasmon Resonance Properties of Quasi-One-Dimensional Silver Nanoparticles in the Range of VIS-NIR,PROCEEDINGS OF THE 7TH NATIONAL CONFERENCE ON CHI-NESE FUNCTIONAL MATERIALS AND APPLICATIONS (2010),VOLS 1-3 : 1503-1507 2010

2103. Brahma, R., Krishna, M.G. Optical behavior of sil-ver/dielectric and gold/dielectric bilayer thin �lms, 2011Physica E: Low-Dimensional Systems and Nanostructures 43(6), pp. 1192-1198

2102. Barshilia, H.C., Kumar, P., Rajam, K.S., Biswas, A. Structureand optical properties of AgAl2O3 nanocermet solar selec-tive coatings prepared using unbalanced magnetron sput-tering, 2011 Solar Energy Materials and Solar Cells 95 (7),pp. 1707-1715

2101. Ananth, A.N., Daniel, S.C.G.K., Sironmani, T.A., Umapathi, S.PVA and BSA stabilized silver nanoparticles based surface-enhanced plasmon resonance probes for protein detection,2011 Colloids and Surfaces B: Biointerfaces 85 (2), pp. 138-144

2100. Sadeghi, S.M. Plasmonic metaresonance nanosensors: Ul-trasensitive tunable optical sensors based on nanoparticlemolecules, 2011 IEEE Transactions on Nanotechnology 10(3), art. no. 5483207, pp. 566-571

2099. Lah, NAC; Johan, MR Facile shape control synthesis and opti-cal properties of silver nanoparticles stabilized by Daxad 19surfactant, APPLIED SURFACE SCIENCE 257 (17): 7494-7500JUN 15 2011

2098. Kooij, ES; Ahmed, W; Zandvliet, HJW; Poelsema, B Locali-zed Plasmons in Noble Metal Nanospheroids, JOURNAL OFPHYSICAL CHEMISTRY C 115 (21): 10321-10332 JUN 2 2011

2097. Zhao, W., Zhao, X.-P. Relationship of surface plasmon po-laritons and nanoparticles morphology, 2011 Guangzi Xue-bao/Acta Photonica Sinica 40 (4), pp. 556-560

2096. Devi, DK; Pratap, SV; Haritha, R; Sivudu, KS; Radhika, P;Sreedhar, B Gum Acacia as a Facile Reducing, Stabilizing,and Templating Agent for Palladium Nanoparticles, JOUR-NAL OF APPLIED POLYMER SCIENCE 121 (3): 1765-1773 AUG5 2011

2095. Kang, JH; Guo, YP; Chen, Y; Wang, ZC Preparation and UV-light Absorption Property of Oleic Acid Surface Modi�edZnO Nanoparticles, CHEMICAL RESEARCH IN CHINESE UNI-VERSITIES 27 (3): 500-502 MAY 2011

2094. Mori, Y; Tagawa, T; Fujita, M; Kuno, T; Suzuki, S; Matsui, T; Is-hihara, M Simple and environmentally friendly preparation


and size control of silver nanoparticles using an inhomoge-neous system with silver-containing glass powder, JOURNALOF NANOPARTICLE RESEARCH 13 (7): 2799-2806 JUL 2011

2093. Mendoza-Galvan, A., Jarrendahl, K., Dmitriev, A., Pakizeh,T., Kall, M., Arwin, H. Optical response of supported goldnanodisks, 2011 Optics Express 19 (13), pp. 12093-12107

2092. Kansal, S.K., Ali, A.H., Kapoor, S., Bahnemann, D.W. Synthe-sis of �ower like zinc oxide nanostructure and its applicationas a photocatalyst, 2011 Separation and Puri�cation Tech-nology 80 (1), pp. 125-130

2091. Lin, HZ; Ohta, T; Paul, A; Hutchison, JA; Demid, K; Lebedev, O;Van Tendeloo, G; Hofkens, J; Uji-i, H Light-assisted nuclea-tion of silver nanowires during polyol synthesis, JOURNALOF PHOTOCHEMISTRY AND PHOTOBIOLOGY A-CHEMISTRY221 (2-3): 220-223 SI 2011.

2090. Dong, JZ; Zhang, XL; Cao, YA; Yang, WS; Tian, JG Shape de-pendence of nonlinear optical behaviors of gold nanopar-ticles, MATERIALS LETTERS 65 (17-18): 2665-2668 2011

2089. Albella, P; Saiz, JM; Gonzalez, F; Moreno, F Surface monito-ring based on light scattering by metal nanosensors, JOUR-NAL OF QUANTITATIVE SPECTROSCOPY & RADIATIVE TRANS-FER 112 (13): 2046-2058 SI 2011

2088. Chen, CC; Yu, BH; Liu, P; Liu, JF; Wang, L Investigation ofnano-sized ZnO particles fabricated by various synthesisroutes, JOURNAL OF CERAMIC PROCESSING RESEARCH 12 (4):420-425 AUG 2011

2087. Wang, G.-H., Zhu, JJ; Kan, CX; Wan, JG; Han, M; Wang,GH High-Yield Synthesis of Uniform Ag Nanowires withHigh Aspect Ratios by Introducing the Long-Chain PVP inan Improved Polyol Process, JOURNAL OF NANOMATERIALS10.1155/2011/982547 2011

2086. Mertens, S.F.L., Gara, M., Sologubenko, A.S., Mayer, J., Szi-dat, S., Kramer, K.W., Jacob, T., Schi�rin, D.J, Wandlowski, T.Au/Hg nanoalloy formation through direct amalgamation:Structural, spectroscopic, and computational evidence forslow nanoscale di�usion, Advanced Functional Materials 21(17), pp. 3259-3267 2011

2085. Keerthi Devi, D., Veera Pratap, S., Haritha, R., Samba Si-vudu, K., Radhika, P., Sreedhar, B. Gum acacia as a facilereducing, stabilizing, and templating agent for palladiumnanoparticles, Journal of Applied Polymer Science 121 (3),pp. 1765-1773 2011

2084. Jia, Z., The controlled synthesis of single-crystallineCd(OH)2 nanoparticles with di�erent morphologies, Advan-ced Materials Research 295-297, pp. 808-812 2011

2083. Mojahed, F., Dehghanpour, S., Alizadeh, M., Mahmoudi, A.Wet chemical synthesis of oleylamine-capped silver nano-particles by a fast and facile reproducible method, Synt-hesis and Reactivity in Inorganic, Metal-Organic and Nano-Metal Chemistry 41 (6), pp. 664-670 2011

2082. K.S.V. Krishna Rao, P. Ramasubba Reddy, Yong-Ill Lee,Changdae Kim Synthesis and characterization of chitosan-DPEG-Ag nanocomposites for antimicrobial application,Carbohydrate Polymers, Volume 87, Issue 1, 4 January 2012,Pages 920-925

2081. Mdluli, P.S., Sosibo, N.M., Mashazi, P.N., Nyokong, T., Tshik-hudo, R.T., Skepu, A., Van Der Lingen, E. Selective adsorptionof PVP on the surface of silver nanoparticles: A moleculardynamics study, Journal of Molecular Structure 1004 (1-3),pp. 131-137 2011

2080. Rajabi, O; Bazzaz, BSF; Vaseghi, AR; Salari, R Standardizingthe Bactericidal Activities of Silver Nanoparticles Made ByElectrochemical Reduction and Comparing It with Deconex53 Instrument, IRANIAN JOURNAL OF PHARMACEUTICAL RE-SEARCH 10 (3): 481-487 SEP 2011

2079. Gao, JJ; Qu, RJ; Tang, B; Wang, CH; Ma, QL; Sun, CM Controlof the aggregation behavior of silver nanoparticles in pol-yurethane matrix, JOURNAL OF NANOPARTICLE RESEARCH 13(10): 5289-5299 2011

2078. Chen, DP; Zhu, G; Zhu, XG; Qiao, XL; Chen, JG Contro-lled synthesis of monodisperse silver nanocubes via asolvothermal method, JOURNAL OF MATERIALS SCIENCE-MATERIALS IN ELECTRONICS 22 (12): 1788-1795 (2011)

2077. Sangeetha, G., Rajeshwari, S., Venckatesh, R. Green synthe-sis of zinc oxide nanoparticles by aloe barbadensis millerleaf extract: Structure and optical properties, 2011 MaterialsResearch Bulletin 46 (12), pp. 2560-2566

2076. Allagui, A., Wuthrich, R. The electrochemical discharges forthe synthesis of nickel oxide nanoparticles: Characterizationand mechanism, 2011 Electrochimica Acta 58 (1), pp. 12-18

2075. Kanchana, A., Agarwal, I., Sunkar, S., Nellore, J., Namasi-vayam, K. Biogenic silver nanoparticles from Spinacia ole-racea and Lactuca sativa and their potential antimicrobialactivity, 2011 Digest Journal of Nanomaterials and Biostruc-tures 6 (4), pp. 1741-1750

2074. Barjasteh-Moghaddam, M., Habibi-Yangjeh, A. Preparationof Zn1-xMnxO nanoparticles by a simple ”green”methodand photocatalytic activity under visible light irradiation,2011 International Journal of Materials Research 102 (11), pp.1397-1402


2073. Mantion, A; Graf, P; Florea, I; Haase, A; Thunemann, AF; Ma-sic, A; Ersen, O; Rabu, P; Meier, W; Luch, A; Taubert, A Biomi-metic synthesis of chiral erbium-doped silver/peptide/silicacore-shell nanoparticles (ESPN), NANOSCALE, 3 (12):5168-5179; 2011

2072. Kida, T Formation and Function of Nano- and Microstruc-tures by the Self-assembly of Cyclic Oligosaccharides Cy-clodextrins, TRENDS IN GLYCOSCIENCE AND GLYCOTECHNO-LOGY, 23 (130):67-78; MAR 2011

2071. Gouda, M. Nano-zirconium oxide and nano-silver oxi-de/cotton gauze fabrics for antimicrobial and wound hea-ling acceleration, 2012, Journal of Industrial Textiles 41 (3) ,pp. 222-240

2070. Grillet, N., Manchon, D., Bertorelle, F., Bonnet, C., Broyer, M.,Cottancin, E., Lerme, J., (...), Pellarin, M. Plasmon couplingin silver nanocube dimers: Resonance splitting induced byedge rounding, 2011 ACS Nano 5 (12) , pp. 9450-9462

2069. Evlyukhin, AB; Reinhardt, C; Chichkov, BN Multipole lightscattering by nonspherical nanoparticles in the dis-crete dipole approximation, PHYSICAL REVIEW B, 84(23):10.1103/PhysRevB.84.235429 DEC 20 2011

2068. Kumar, A., Mazinder Boruah, B., Liang, X.-J. Gold nanopar-ticles: Promising nanomaterials for the diagnosis of cancerand HIV/AIDS, 2011 Journal of Nanomaterials 2011 , art. no.202187

2067. Guzman, M; Dille, J; Godet, S Synthesis and anti-bacterial activity of silver nanoparticles against gram-positive and gram-negative bacteria, NANOMEDICINE-NANOTECHNOLOGY BIOLOGY AND MEDICINE, 8 (1):37-45;10.1016/j.nano.2011.05.007 JAN 2012

2066. Shao, G.-X., Liang, J., Li, T.-B., Liu, H.-R., Zhao, J.-F., Xu, B.-S.E�ects of sulfur ion on morphology and optical propertiesof silver nano-products, 2012 Chinese Journal of InorganicChemistry 28 (1) , pp. 55-61

2065. Anandhavelu, S; Thambidurai, S E�ect of zinc chloride andsodium hydroxide concentration on the optical property ofchitosan-ZnO nano structure prepared in chitin deacetyla-tion, MATERIALS CHEMISTRY AND PHYSICS, 131 (1-2):449-454(2011)

2064. Ahamad, N., Bottomley, A., Ianoul, A.Optimizing refractiveindex sensitivity of supported silver nanocube monolayers,Journal of Physical Chemistry C 116 (1) , pp. 185-192 2012

2063. Alsawa�a, M., Wahbeh, M., Truong, V.-V. Simulated opticalproperties of gold nanocubes and nanobars by discrete di-pole approximation, (2012) Journal of Nanomaterials, 2012,art. no. 283230

2062. Xia, X., Zeng, J., Oetjen, L.K., Li, Q., Xia, Y. Quantitativeanalysis of the role played by poly(vinylpyrrolidone) inseed-mediated growth of Ag nanocrystals, (2012) Journalof the American Chemical Society, 134 (3) pp. 1793-1801.

2061. Nellore, J., Pauline, P.C., Amarnath, K. Biogenic synthesis bysphearanthus amaranthoids; towards the e�cient produc-tion of the biocompatible gold nanoparticles, Digest Journalof Nanomaterials and Biostructures 7 (1) , pp. 123-133 2012

2060. Pan�lova, E., Shirokov, A., Khlebtsov, B., Matora, L., Khleb-tsov, N. Multiplexed dot immunoassay using Ag nanocubes,Au/Ag alloy nanoparticles, and Au/Ag nanocages, Nano Re-search 5 (2) , pp. 124-134 2012

2059. Angelidou, M., Pitris, C. Investigation of nanostructure scat-tering and absorption for combined optical diagnostic andtherapeutic applications, Progress in Biomedical Optics andImaging - Proceedings of SPIE 8231 , art. no. 823108, 2012

2058. Chen, R., Li, D., Hu, H., Zhao, Y., Wang, Y., Wong, N., Wang, S.,(...), Xiong, Q. Tailoring optical properties of silicon nanowi-res by au nanostructure decorations: Enhanced Raman scat-tering and photodetection, Journal of Physical Chemistry C116 (7) , pp. 4416-4422, 2012

2057. Homan, K; Mallidi, S; Cooley, E; Emelianov, S COMBINEDPHOTOACOUSTIC AND ULTRASOUND IMAGING OF METAL NA-NOPARTICLES IN VIVO, NANOIMAGING, 2 225-249; 2011


2055. Barshilia, H.C., Tanwer, A., Siju, Mahadik, D.B., Rao, A.V. De-sign of Ag-Si 3N 4 nanocermet coatings for photothermalconversion applications, (2012) Nanoscience and Nanotech-nology Letters, 4 (1) pp. 41-47.

2054. Arjunan, NK; Murugan, K; Rejeeth, C; Madhiyazhagan, P;Barnard, DR Green Synthesis of Silver Nanoparticles for theControl of Mosquito Vectors of Malaria, Filariasis, and Den-gue, VECTOR-BORNE AND ZOONOTIC DISEASES, 12 (3):262-268; 10.1089/vbz. 2011.0661 MAR 2012

2053. Shao, GX; Liang, J; Li, TB; Zhao, JF; Xu, BS E�ects of SulfurIon on Morphology and Optical Properties of Silver Nano-Products, CHINESE JOURNAL OF INORGANIC CHEMISTRY, 28(1):55-61; JAN 2012

2052. Ankamwar, B., Mandal, G., Sur, U.K., Ganguly, T. An e�ectivebiogenic protocol for room temperature one step synthesis


of defective nanocrystalline silver nanobuns using leaf ex-tract, 2012 Digest Journal of Nanomaterials and Biostructu-res 7 (2) , pp. 599-605

2051. Zhang, YX; Ding, HL; Liu, YY; Pan, SS; Luo, YY; Li, GH Faci-le one-step synthesis of plasmonic/magnetic core/shell na-nostructures and their multifunctionality, JOURNAL OF MA-TERIALS CHEMISTRY, 22 (21):10779-10786

2050. Prakasham, RS; Kumar, BS; Kumar, YS; Shankar, GGCharacterization of Silver Nanoparticles Synthesized byUsing Marine Isolate Streptomyces albido�avus, JOURNALOF MICROBIOLOGY AND BIOTECHNOLOGY, 22 (5):614-621;10.4014/jmb.1107.07013 MAY 2012

2049. Xie, X; Yan, KQ; An, ZG; Zhang, JJ Facile synthesis of glass-silver nanodisk core-shell composite hollow spheres, RSCADVANCES, 2 (12):5058-5061; 10.1039/c2ra20293j 2012

2048. Newhouse, RJ; Zhang, JZ Optical Properties and Applica-tions of Shape-Controlled Metal Nanostructures, REVIEWSIN PLASMONICS 2010, 205-238; 1 2012

2047. Cortie, MB; Liu, FG; Arnold, MD; Niidome, Y Multimode Re-sonances in Silver Nanocuboids, LANGMUIR, 28 (24):9103-9112; 10.1021/la300407u JUN 19 2012

2046. Evlyukhin, AB; Reinhardt, C; Chichkov, BN Multipole contri-butions into resonant scattering of light by nonspherical na-noparticles using the discrete dipole approximation, Editors:Andrews DL; Nunzi JM; Ostendorf A, NANOPHOTONICS IV,8424 10.1117/12.922295 2012 Proceedings of SPIE - The In-ternational Society for Optical Engineering 8424 , art. no.84240M

2045. Liu, Z., Zhou, H., Lim, Y.S., Song, J.-H., Piao, L., Kim, S.-H.Synthesis of silver nanoplates by two-dimensional orientedattachment, 2012, Langmuir 28 (25) , pp. 9244-9249

2044. Majumdar, D., Roszak, S., Leszczynski, J. Theoretical studieson the structure and electronic properties of cubic gold na-noclusters, 2012, Canadian Journal of Chemical Engineering90 (4) , pp. 852-859

2043. Kumar, C.G., Mamidyala, S.K., Reddy, M.N., Reddy, B.V.S. Sil-ver glyconanoparticles functionalized with sugars of sweetsorghum syrup as an antimicrobial agent, 2012, ProcessBiochemistry 47 (10) , pp. 1488-1495

2042. Almeida de Matos, R; da Silva Cordeiro, T.; Elgul Samad, R;Dias Vieira, N; Coronato Courrol, L. Green synthesis of goldnanoparticles of di�erent sizes and shapes using agar–agarwater solution and femtosecond pulse laser irradiation, Ap-plied Physics A: Materials Science & Processing, 2012 109(3):737-741 Doi: 10.1007/s00339-012-7108-y

2041. Ding, XL; Kan, CX; Mo, B; Ke, SL; Cong, B; Xu, LH; Zhu, JJ Synt-hesis of polyhedral Ag nanostructures by a PVP-assisted hy-drothermal method, JOURNAL OF NANOPARTICLE RESEARCH,14 (8):10.1007/s11051-012-1000-8 AUG 2012

2040. Kumar, CG; Mamidyala, SK; Reddy, MN; Reddy, BVSSilver glyconanoparticles functionalized with su-gars of sweet sorghum syrup as an antimicrobialagent, PROCESS BIOCHEMISTRY, 47 (10):1488-1495;10.1016/j.procbio.2012.05.023 OCT 2012

2039. Mohamed Gouda, Nano-zirconium oxide and nano-silveroxide/cotton gauze fabrics for antimicrobial and woundhealing acceleration, Journal of Industrial Textiles January2012 41: 222-240,

2038. Pang, Z., Zhang, X. Controlling microscopic and spectrosco-pic properties of metallic photonic crystals written by inter-ference ablation, 2012, Optics Communications 285 (21-22), pp. 4583-4587

2037. Mota-Santiago, P.-E., Crespo-Sosa, A., Jimenez-Hernandez,J.-L., Silva-Pereyra, H.-G., Reyes-Esqueda, J.-A., Oliver, A. Si-ze characterisation of noble-metal nano-crystals formed insapphire by ion irradiation and subsequent thermal annea-ling, 2012, Applied Surface Science 259 , pp. 574-581

2036. Rajesh, D., Sunandana, C.S. Brie�y brominated Ag thin �lms:XRD, FESEM, and optical studies of surface modi�cation,2012, Applied Surface Science 259 , pp. 276-282

2035. Khalil, M.M.H., Ismail, E.H., El-Magdoub, F. Biosynthesis ofAu nanoparticles using olive leaf extract. 1st Nano Updates,2012, Arabian Journal of Chemistry 5 (4) , pp. 431-437

2034. Nayuk, R., Huber, K. Formfactors of hollow and massive rec-tangular parallelepipeds at variable degree of anisometry,2012, Zeitschri� fur Physikalische Chemie 226 (7-8) , pp.837-854

2033. Balan, L., Melinte, V., Buruiana, T., Schneider, R., Vidal, L.Controlling the morphology of gold nanoparticles synthesi-zed photochemically in a polymer matrix through photonicparameters, 2012, Nanotechnology 23 (41) , art. no. 415705

2032. Musfeldt, J.L. Optical properties of nanoscale transition me-tal oxides, 2012, Functional Metal Oxide Nanostructures,Springer Series in Materials Science 149 (1) , pp. 87-126

2031. Amin, Muhammad; Anwar, Farooq; Janjua, MuhammadRamzan Saeed Ashraf; et al Green Synthesis of Silver Na-noparticles through Reduction with Solanum xanthocarpumL. Berry Extract: Characterization, Antimicrobial and UreaseInhibitory Activities against Helicobacter pylori, INTERNA-TIONAL JOURNAL OF MOLECULAR SCIENCES 13, 9923-99412012


2030. Zhang, L., Zheng, S., Kim, K.-H., Kim, I. Simple andenvironmentally friendly preparation and stabilizationof gold nano- and microcrystals using N,N?,N?-tris(2-aminoethyl)phosphoric triamide, (2012) Current AppliedPhysics, 12 (SUPPL. 2) pp. S104-S111.

2029. Verma, R.K., Kumar, K., Rai, S.B. Near infrared induced opti-cal heating in laser ablated Bi quantum dots, 2013, Journalof Colloid and Interface Science 390 (1) , pp. 11-16

2028. Yadav, P., Ballabh, A. Synthesis, characterization and nano-particles synthesis using a simple two component supra-molecular gelator: A step towards plausible mechanism ofhydrogelation, 2012, Colloids and Surfaces A: Physicoche-mical and Engineering Aspects 414 , pp. 333-338

2027. Logsdail, A.J., Johnston, R.L. Predicting the optical propertiesof core-shell and Janus segregated Au-M nanoparticles (M= Ag, Pd), 2012, Journal of Physical Chemistry C 116 (44) ,pp. 23616-23628

2026. Gunalan, S; Sivaraj, R; Venckatesh, R, Aloe barbadensis Mi-ller mediated green synthesis of mono-disperse copperoxide nanoparticles: Optical properties, SPECTROCHIMICAACTA PART A-MOLECULAR AND BIOMOLECULAR SPECTROS-COPY, 97 1140-1144; 10.1016/j.saa.2012.07.096 NOV 2012

2025. Yang, Z; Wang, MQ; Shi, MY; Shi, YH; Yao, X Optical Pro-perties of Silver Nanocrystal Synthesized by a New Sra-tegies Experiments Supported by DDA Calculation, Yang,Zhi; Wang, Minqiang; Shi, Mayue; Shi, Yanhua; Yao, Xi, IEEE,2012 12TH IEEE CONFERENCE ON NANOTECHNOLOGY (IEEE-NANO), 2012

2024. De Matos, R.A., Da Silva Cordeiro, T., Samad, R.E., VieiraJr., N.D., Courrol, L.C. 3 of di�erent sizes and shapes usingagar-agar water solution and femtosecond pulse laser irra-diation, (2012) Applied Physics A: Materials Science and Pro-cessing, 109 (3) pp. 737-741

2023. Podivilov, EV; Sturman, BI; Gorkunov, MV Plasmonic reso-nances of nanowires with periodically corrugated cross sec-tions, JOURNAL OF THE OPTICAL SOCIETY OF AMERICA B-OPTICAL PHYSICS, 29 (12):3248-3253; DEC 2012

2022. Velumani, S; Devi, S; Priyadarshni, P; Jeyapaul, J Analysisof Antimicrobial Activity of Silver Nanoparticles Synthesi-zed by Klebsiella pneumoniae and Staphylococcus aureusagainst Food Borne Pathogens, Journal of Pure and AppliedMicrobiology, 6 (3):1227-1234; 2012

2021. Artemyev, M., Krutokhvostov, R., Melnikau, D., Oleinikov, V.,Sukhanova, A., Nabiev, I. Low-�eld magnetic circular di-chroism in silver and gold colloidal nanoparticles of dif-ferent sizes, shapes, and aggregation states, 2012, Procee-dings of SPIE - The International Society for Optical Engi-neering 8457 , art. no. 845729

2020. Sujarania, S; Sironmani, TA; Ramu, A Synthesis, charac-terization and toxicity studies os schi� bases [2-(2, 2-diphenylethylimino)methyl)phenols] anchored silver nano-particles, Digest J Nanomaterials & Biostructures 7 (4):1843-1857 (2012)

2019. J He, C Fan, J Wang, P Ding, G Cai, Y Cheng, S Zhu, E LiangA giant localized �eld enhancement and high sensitivity inan asymmetric ring by exhibiting Fano resonance, J. Opt.15, 025007 (2013)

2018. Ferraris, M; Ferraris, S; Miola, M; Perero, S; Balagna, C; Ver-ne, E; Gautier, G; Manfredotti, C; Battiato, A; Vittone, E; Spe-ranza, G; Bogdanovic, I E�ect of thermal treatments on sput-tered silver nanocluster/silica composite coatings on soda-lime glasses: ionic exchange and antibacterial activity, J Na-nopart Res 14 (12):10.1007/s11051-012-1287-5, 2012

2017. Zhu, J; Ren, YJ Negative curvature dependent plasmoniccoupling and local �eld enhancement of crescent silver na-nostructure, J Nanopart Res 14 (12):10.1007/s11051-012-1326-2, 2012

2016. M Jeyaraj, S Varadan, K J P Anthony, M Murugan, A Raja,S Gurunathan Antimicrobial and anticoagulation activity ofsilver nanoparticles synthesized from the culture superna-tant of Pseudomonas aeruginosa, Journal of Industrial andEngineering Chemistry, Journal of Industrial and Enginee-ring Chemistry 19 (4) , pp. 1299-1303 2013

2015. N A Joy, M A Carpenter Optical Sensing Methods for MetalOxide Nanomaterials, en Metal Oxide Nanomaterials forChemical Sensors, Integrated Analytical Systems 2013, pp365-394, DOI:10.1007/978-1-4614-5395-6-12

2014. Wang, S; Li, C; Murase, N Synthesis of Highly LuminescentCdTe0.5S0.5/CdxZn1-xS Core/Shell Quantum Dots, Advan-ced Science, Engineering and Medicine, Volume 5, Number1, January 2013 , pp. 23-36(14)

2013. A. M. Bratkovsky Nanoscale Applications for Informationand Energy Systems, Nanostructure Science and Techno-logy 2013, pp 1-40, Plasmonic Devices for Fast Optoelec-tronics and Enhanced Raman Sensors, DOI:10.1007/978-1-4614-5016-0-1

2012. S Gunalan, R Sivaraj, V Rajendran, Green synthesized ZnOnanoparticles against bacterial and fungal pathogens, Pro-gress in Natural Science: Materials International, Volume 22,Issue 6, December 2012, Pages 695-702, ISSN 1002-0071,10.1016/j.pnsc.2012.11.015.

2011. S Roy, T Mukherjee, S Chakrabort, TK Das Biosynthesis,characterization & antifungal activity of silver nanoparticlessynthesized by the fungus aspergillus foetidus MTCC8876,Digest Journal of Nanomaterials and Biostructures Vol. 8,No. 1, January - March 2013, p. 197 - 205


2010. A. Garcia-Valenzuela, E. Haro-Poniatowski, J. Toudert, R. Ser-na Evolution of the optical re�ectivity of a monolayer ofnanoparticles during its growth on a dielectric thin �lm, Ap-plied Physics A 110, pp 757-764 (2013)

2009. L Zhang, S Zheng, K-H Kim, I Kim, Simple andenvironmentally friendly preparation and stabilizationof gold nano- and microcrystals using N,N?,N”-tris(2-aminoethyl)phosphoric triamide, Current Applied Physics,Volume 12, Supplement 2, September 2012, Pages S104-S111,ISSN 1567-1739, 10.1016/j.cap.2012.02.030.

2008. A Alshammari, A Kockritz, V N Kalevaru, A Bagabas, A Mar-tin In�uence of Single Use and Combination of Reductantson the Size, Morphology and Growth Steps of Gold Na-noparticles in Colloidal Mixture, Open Journal of PhysicalChemistry, 2012, 2, 252-261 doi:10.4236/ojpc.2012.24033Published Online November 2012

2007. F Abdi, A Siabi-Garjan, H Savaloni Investigation on the De-pendence of Optical Spectra of Silver Chiral Nanostructureson Shape, Dimensions and Incident Light by Discrete Dipo-le Approximation,Journal of Theoretical and Applied Physics2012, 6:11 doi:10.1186/2251-7235-6-11

2006. K Sridharan, T Endo, S-G Cho, J Kim, TJ Park, R Phi-lip Single step synthesis and optical limiting proper-ties of Ni–Ag and Fe–Ag bimetallic nanoparticles, Op-tical Materials 35 (5):860-867 2013, ISSN 0925-3467,10.1016/j.optmat.2012.10.053.

2005. X Xie, K Yan, A An, J Zhang Facile synthesis ofglass–silver nanodisk core–shell composite hollow sp-heresDOI:10.1039/C2RA20293J (Communication) RSC Adv.,2012, 2, 5058-5061

2004. AR Sadrolhosseini, A. S. M. Noor and MM Moksin Applicationof Surface Plasmon Resonance Based on a Metal Nanopar-ticle, 2012 http://cdn.intechopen.com/pdfs/40345

2003. Angelidou, M; Pitris, C; Design of a new nanostructure fortheranostic applications, Bioinformatics & Bioengineering(BIBE), 2012 IEEE 12th International Conference on , vol., no.,pp.240-244, 11-13 Nov. 2012

2002. Stacy, Bradley M. Controlled Synthesis of Gold Nanorodswith Varying Aspect Ratios and Their Biological Applications,Master of Science (M.S.), University of Dayton, Chemical En-gineering, 2012.

2001. A Grubisic, V Schweikhard, T A. Baker, D J. Nesbitt CoherentMultiphoton Photoelectron Emission from Single Au Nano-rods: The Critical Role of Plasmonic Electric Near-Field En-hancement, ACS Nano 2013 7 (1), 87-99

2000. MR Are�, S Rezaei-Zarchi, S Imani Synthesis of ZnO nano-particles and their antibacterial e�ects, African Journal ofBiotechnology Vol. 11 (34), pp. 8520-8526, 26 April, 2012,DOI: 10.5897/AJB12.551

1999. P Dwivedi, S.S. Narvi, R.P. Tewari Potentiality of the plantPseudotsuga menzietii to combat implant related infectionin the nanoregime, International Journal of Biomedical Na-noscience and Nanotechnology, Volume 2, 187- 206, 2012,DOI:10.1504/IJBNN.2012.051217

1998. Alsawa�a, Mohammed (2012) Optical properties of metallicnanoparticles and metallic nanocomposite materials PhDthesis, Concordia University.

1997. F. Abdi, A. Siabi-Gerjan, and H. Savaloni On the discretedipole approximation investigation of the extinction spectraof ag/glass nano-�ower thin �lm with threefold symmetry,Journal of Theoretical and Applied Physics 6(1), 2012.

1996. P. E. Cardoso-Avila, J. L. Pichardo-Molina, K. U. Kumar, andJ. A. Arenas-Alatorre Temperature and amino acid-assistedsize- and morphology-controlled photochemical synthesisof silver decahedral nanoparticles, Journal of ExperimentalNanoscience, pages 1–13, 2013/01/31 2012.

1995. V. Gopinath, P. Velusamy, Extracellular biosynthesis of sil-ver nanoparticles using Bacillus sp. GP-23 and evaluationof their antifungal activity towards Fusarium oxysporum,Spectrochimica Acta Part A: Molecular and BiomolecularSpectroscopy, Volume 106, April 2013, Pages 170-174, ISSN1386-1425, 10.1016/j.saa.2012.12.087.

1994. Wan, C. Y., Zhan, W. Synthesis of Silver Particles by Repla-cement Reaction In Materials Science Forum (Vol. 745, pp.72-77). (2013, April).

1993. Naghsh, N., Amirkhani Dehkordi, Z., Aghababa, H. E�ectsof Silver Nanoparticles Contact with Skin in HGB and MCHChanges in Male Rats in In Vivo Condition, Journal of Mazan-daran University of Medical Sciences, 23(98), 11-17 (2013).

1992. J. Ortega-Mendoza, F. Chavez, P. Zaca-Moran, C. Felipe, G.Perez-Sanchez, G. Beltran-Perez, O. Goiz, and R. Ramos-Garcia, Selective photodeposition of zinc nanoparticles onthe core of a single-mode optical �ber, Opt. Express 21,6509-6518 (2013).

1991. Keun Lee, Y., Lee, J., Lee, H., Lee, J.-Y., Young Park, J. Probingpolarization modes of Ag nanowires with hot electron detec-tion on Au/TiO2 nanodiodes, 2013, Applied Physics Letters102 (12) , art. no. 123112

1990. Mori, Y; Ono, T; Miyahira, Y; Nguyen, VQ; Matsui, T; Ishihara,M Antiviral activity of silver nanoparticle/chitosan compo-sites against H1N1 in�uenza A virus, Nanoscale Res. Letts.,8 10.1186/1556-276X-8-93 FEB 20 2013


1989. Lee, H., Park, S.H., Jung, S.-C., Yun, J.-J., Kim, S.-J., Kim, D.-H.Preparation of nonaggregated silver nanoparticles by theliquid phase plasma reduction method, 2013, J. MaterialsResearch 28 (8) , pp. 1105-1110

1988. Bulou, H., Scheurer, F., Goyhenex, C., Speisser, V., Romeo, M.,Carriere, B., Moreau, N., (...), Ohresser, P. Thermodynamicsversus kinetics in a morphology transition of nanoparticles,2013, Phys. Rev. B - 87 (15) , art. no. 155404

1987. Nguyen, V. Q., Ishihara, M., Mori, Y., Nakamura, S., Kishimo-to, S., Hattori, H., Fujita, M (; Kanatani, Y; Ono, T; Miyahira,Y; Matsui, T. Preparation of size-controlled silver nanoparti-cles and chitin-based composites and their anti-microbialactivities, J. Nanomaterials Article Number: 693486 DOI:10.1155/2013/693486 Published: 2013

1986. Y.-W. Ma, Z.-W. Wu, L.-H. Zhang, J. Zhang, G.-S. Jian, and S.Pan. Theoretical study of the local surface plasmon reso-nance properties of silver nanosphere clusters,Plasmonics8 (3), pp. 1351-1360, 2013.

1985. Debaleena Bhattacharjee , Subrata Dasgupta & Sib-das Bandyopadhyay (2013): Rectangular PalladiumNanoparticles (RNPs): Synthesis, Characterization andMechanistic Studies, Synthesis and Reactivity in Inor-ganic, Metal- Organic, and Nano-Metal Chemistry,DOI:10.1080/15533174.2012.760160

1984. El-Dessouky, R; Georges, M; Azzazy, HME Silver Nanos-tructures: Properties, Synthesis, and Biosensor Applications,Editor(s): Hepel M; Zhong CJ, en FUNCTIONAL NANOPARTI-CLES FOR BIOANALYSIS, NANOMEDICINE, AND BIOELECTRO-NIC DEVICES, VOL 1, 1112 359-404; 2012, ACS SymposiumSeries

1983. Singh, A; Chernenko, T; Amiji, M Theranostic Applicationsof Plasmonic Nanosystems, Editor(s): Hepel M; Zhong CJ enFUNCTIONAL NANOPARTICLES FOR BIOANALYSIS, NANOME-DICINE, AND BIOELECTRONIC DEVICES, VOL 2, 1113 383-413;2012, ACS Symposium Series

1982. Kitching, H., Shiers, M.J., Kenyon, A.J., Parkin, I.P. Self-assembly of metallic nanoparticles into one dimensionalarrays, 2013, Journal of Materials Chemistry A 1 (24) , pp.6985-6999

1981. Kim, Y., Lee, B.-G., Roh, Y. Microbial synthesis of silver na-noparticles, 2013, Journal of Nanoscience and Nanotechno-logy 13 (6) , pp. 3897-3900

1980. Vijayakumar, S., Paulsi, S. Gold nanoparticles in early de-tection and treatment of cancer: Biodistribution and toxici-ties, 2013, International Journal of Pharmaceutical SciencesReview and Research 20 (2) , pp. 80-88

1979. Roy, S., Das, T.K., Synthesis and standardization of biologi-cally synthesized silver nanoparticles, 2013, AIP ConferenceProceedings 1536 , pp. 39-40

1978. Hu, PP; Zheng, LL; Zhan, L; Li, JY; Zhen, SJ; Liu, H; Luo, LF;Xiao, GF; Huang, CZ Metal-enhanced �uorescence of nano-core-shell structure used for sensitive detection of prionprotein with a dual-aptamer strategy, 2013, Analytica Chi-mica Acta 787 , pp. 239-245

1977. Chakrabarty, A., Maitra, U. Organogels from dimeric bileacid esters: In situ formation of gold nanoparticles, 2013,Journal of Physical Chemistry B 117 (26) , pp. 8039-8046

1976. Singhal, R., Pivin, J.C., Chandra, R., Avasthi, D.K. Ion irra-diation studies of silver/amorphous carbon nanocompositethin �lm, 2013, Surface and Coatings Technology 229 , pp.50-54

1975. Wu, R., Kong, Q.-C., Fu, C., Lai, S.-Q., Ye, C., Liu, J.-Y., Chen,Y., Hu, J.-Q. One-pot synthesis and enhanced catalytic per-formance of Pd and Pt nanocages via galvanic replacementreactions, 2013, RSC Advances 3 (31) , pp. 12577-12580

1974. Dandapat, A; Pramanik, S; Bysakh, S; De, G Boat-like Aunanoparticles embedded mesoporous gamma-Al2O3 �lms:an e�cient SERS substrate, JOURNAL OF NANOPARTICLE RE-SEARCH, 15 (7):10.1007/s11051-013-1804-1 JUL 2013

1973. Zhang, D., Yang, H. Synthesis of biomacromolecule-stabilized silver nanoparticles and their surface-enhancedRaman scattering properties, 2013, Applied Physics A: Ma-terials Science and Processing 112 (3) , pp. 739-745

1972. Liu, P., Lin, X.Z., Yu, J.M., Yang, G.W. From nanocrystal synt-hesis to nanomanufacturing: Laser ablation in liquid (Chap-ter) 2012, Laser Ablation in Liquids: Principles and Appli-cations in the Preparation of Nanomaterials, 855-946, DOI:10.4032/9789814241526

1971. Hung, L; Lee, SY; McGovern, O; Rabin, O; Mayergoyz, I Cal-culation and measurement of radiation corrections for plas-mon resonances in nanoparticles, PHYSICAL REVIEW B, 88(7):10.1103/PhysRevB.88.075424 AUG 19 2013

1970. Hartmann, T., Muhling, M., Wolf, A., Mariana, F., Maskow, T.,Mertens, F., Neu, T.R., Lerchner, J. A chip-calorimetric ap-proach to the analysis of Ag nanoparticle caused inhibitionand inactivation of beads-grown bacterial bio�lms, 2013,Journal of Microbiological Methods 95 (2) , pp. 129-137

1969. Chernak, D.J., Sisco, P.N., Goldsmith, E.C., Baxter, S.C.,Murphy, C.J. High-aspect-ratio gold nanorods: Their synt-hesis and application to image cell-induced strain �elds incollagen �lms, 2013, Methods in Molecular Biology 1026 ,pp. 1-20


1968. Lin, HY; Huang, PJ; Huang, CH; Wang, YC; Wang, CRC Synt-hesis and Optical Properties of Noble Metal Nanoparticlesfor Biodetection, Editor(s): Chau LK; Chang HT, FROM BIO-IMAGING TO BIOSENSORS: NOBLE METAL NANOPARTICLESIN BIODETECTION, 1-10; 2013

1967. Linkov, P., Artemyev, M., E�mov, A.E., Nabiev, I. Comparativeadvantages and limitations of the basic metrology methodsapplied to the characterization of nanomaterials, 2013, Na-noscale 5 (19) , pp. 8781-8798

1966. Wei, Q., Wei, A. Plasmon-Resonant gold nanorods asmultifunctional agents for diagnostics, imaging and pho-tothermal therapy (Chapter), 2010, Handbook of Ma-terials for Nanomedicine, ISBN: 978-981426755-7, DOI:10.4032/9789814267588

1965. Nguyen, VQ; Ishihara, M; Nakamura, S; Hattori, H; Ono, T;Miyahira, Y; Matsui, T Interaction of Silver Nanoparticlesand Chitin Powder with Di�erent Sizes and Surface Structu-res: The Correlation with Antimicrobial Activities, JOURNALOF NANOMATERIALS, art. no. 467534 10.1155/2013/467534(2013)

1964. Hebeish, A., El-Ra�e, M.H., El-Sheikh, M.A., El-Naggar, M.E.Nanostructural features of silver nanoparticles powder synt-hesized through concurrent formation of the nanosized par-ticles of both starch and silver, 2013, Journal of Nanotech-nology 2013 , art. no. 201057

1963. Kaur, R., Pal, B. Co-catalytic and electro-kinetic properties ofAu nanostructures dispersed in solvents of varying dipolemoments, 2014, Colloids and Surfaces A: Physicochemicaland Engineering Aspects 441 , pp. 155-163

1962. Paira, M.K., Dutta, P., Mondal, T.K., Sinha, C. Syntheses, spec-tral characterizations, redox properties and DFT compu-tations of [MH(CO)(PPh3)2(N-heterocycle Schi� bases)]+ (M= Ru and Os) and their applications to the synthesis of Agnanoparticles, 2013, Journal of the Indian Chemical Society90 (4) , pp. 423-426

1961. Awasthi, KK; Awasthi, A; Kumar, N; Roy, P; Awasthi, K; John,PJ Silver nanoparticle induced cytotoxicity, oxidative stress,and DNA damage in CHO cells, JOURNAL OF NANOPARTICLERESEARCH, 15 (9):10.1007/s11051-013-1898-5 SEP 2013

1960. Kanmani, P., Rhim, J.-W. Physical, mechanical and antimicro-bial properties of gelatin based active nanocomposite �lmscontaining AgNPs and nanoclay, 2014, Food Hydrocolloids35 , pp. 644-652

1959. Martiradonna, L., Shankar, S.S., Pompa, P.P. E-Beam Litho-graphy and Spontaneous Galvanic Displacement Reactionsfor Spatially Controlled MEF Applications (Chapter), 2010,Metal-Enhanced Fluorescence

1958. Nguyen, VQ; Ishihara, M; Mori, Y; Nakamura, S; Kishimo-to, S; Fujita, M; Hattori, H; Kanatani, Y; Ono, T; Miyahira, Y;Matsui, T Preparation of size-controlled silver nanoparticlesand chitosan-based composites and their anti-microbialactivities, BIO-MEDICAL MATERIALS AND ENGINEERING, 23(6):473-483; 10.3233/BME-130772 2013

1957. Wei, Q., Wei, A. Signal Generation with Gold Nanoparticles:Photophysical Properties for Sensor and Imaging Applica-tions (Chapter ), 2010, The Supramolecular Chemistry ofOrganic-Inorganic Hybrid Materials, ISBN: 978-047037621-8, DOI: 10.1002/9780470552704.ch10, John Wiley & Sons,Inc.

1956. Park, G., Seo, D., Chung, I.S., Song, H. Poly(ethylene glycol)-and carboxylate-functionalized gold nanoparticles usingpolymer linkages: Single-step synthesis, high stability, andplasmonic detection of proteins, 2013, Langmuir 29 (44) ,pp. 13518-13526

1955. Jia, C., Yang, P., Zhang, A. Glycerol and ethylene glycol co-mediated synthesis of uniform multiple crystalline silver na-nowires, 2014, Materials Chemistry and Physics 143 (2) , pp.794-800

1954. Antony, A., Blackbeard, J., Angles, M., Leslie, G. Non-microbial indicators for monitoring virus removal by ultra-�ltration membranes, 2014, J Membrane Science 454 , pp.193-199

1953. Sui, N., Monnier, V., Salvia, M.-V., Chevolot, Y., Souteyrand,E. Magnetic and optical properties of Ag at SiO2-FITC-Fe3O4 hybrid nanoparticles, 2014, Materials Science and En-gineering B: Solid-State Materials for Advanced Technology182 (1) , pp. 92-95

1952. El-Naggar, N.E.-A., Abdelwahed, N.A.M. Application of sta-tistical experimental design for optimization of silver nano-particles biosynthesis by a nanofactory Streptomyces viri-dochromogenes, 2014, J Microbiology 52 (1) , pp. 53-63

1951. Wang, Q; Yu, CX Chemical and Biological Sensing and Ima-ging Using Plasmonic Nanoparticles and Nanostructures,Wang, Qi; Yu, Chenxu, Editor(s): Irudayaraj J, BIOMEDICALNANOSENSORS, 3 59-96; 2013

1950. Zhang, D., Yang, H. Facile synthesis of anisotropic silver na-noparticles and their surface-enhanced Raman scatteringproperties, 2014, J Molecular Structure 1060 (1) , pp. 1-5

1949. Zhang, X.-Q., Yang, Z.-Y., Hu, A.-J., Wang, H.-C., Shen, Z.-Y. Rapid synthesis and characterization of silver nanowireswith single crystal structure by chemical reduction inducedby L-cysteine, 2013, Gongneng Cailiao/Journal of FunctionalMaterials 44 (21) , pp. 3169-3173


1948. Ram, S. Functional nanomaterials with a bonded surfacelayer for electronic, optical and other applications: Nano-�uids and derivatives in Synthesis, Characterization andApplications of Multifunctional Materials, February 2012,Pages 309-332, Nova Science Publishers, Inc. ISBN: 978-161470618-2

1947. Kalabegishvili, T; Murusidze, I; Kirkesali, E; Rcheulishvili,A; Ginturi, E; Kuchava, N; Bagdavadze, N; Gelagutashvi-li, E; Frontasyeva, MV; Zinicovscaia, I; Pavlov, SS; Dmitriev,AY GOLD AND SILVER NANOPARTICLES IN Spirulina platen-sis BIOMASS FOR MEDICAL APPLICATION, ECOLOGICAL CHE-MISTRY AND ENGINEERING S-CHEMIA I INZYNIERIA EKOLO-GICZNA S, 20 (4):621-631; 10.2478/eces-2013-0043 2013

1946. Wang, BY; Qu, SL Absorption spectra and near-electric�eld enhancement e�ects of Au- and Ag-Fe3O4 di-mers, APPLIED SURFACE SCIENCE, 292 1002-1008;10.1016/j.apsusc.2013.12.103 FEB 15 2014

1945. Faucheaux, J.A.a, Fu, J.ad, Jain, P.K. Uni�ed theoretical fra-mework for realizing diverse regimes of strong couplingbetween plasmons and electronic transitions, J Phys ChemC 118 (5), 2014, 2710-2717

1944. Venkatesan, K.R., Vajrai, R., Nithyadevi, M., Arun, K.P., UmaMaheswari, K., Brindha, P. Characterization and Antimicro-bial e�ect of silver Nanoparticles Synthesized from Bacillussubtilis (MTCC 441), International Journal of Drug Develop-ment and Research 5 (4), 2013, 187-193

1943. Lai, XD; Feng, XM; Zhang, MH; Hong, RJ; Chen, YX; Li, AQ;Deng, XL; Hu, JQ Large-scale synthesis and surface plas-mon resonance properties of angled silver/silver homojun-ction nanowires, JOURNAL OF NANOPARTICLE RESEARCH, 16(3):10.1007/s11051-014-2272-y FEB 5 2014

1942. Moharram, AH; Mansour, SA; Hussein, MA; Rashad, M DirectPrecipitation and Characterization of ZnO Nanoparticles,JOURNAL OF NANOMATERIALS, 10.1155/2014/716210 2014

1941. Apalangya, V., Rangari, V., Tiimob, B., Jeelani, S., Samuel, T.Development of antimicrobial water �ltration hybrid mate-rial from bio source calcium carbonate and silver nanopar-ticles, Applied Surface Science, Volume 295, 15 March 2014,Pages 108-114

1940. Moharram, A.H., Mansour, S.A., Hussein, M.A., Rashad, M.Direct precipitation and characterization of ZnO nanoparti-cles, Journal of Nanomaterials, Volume 2014, 2014, Articlenumber 716210

1939. Roy, S., Das, T.K. Biosynthesis of silver nanoparticles byaspergillus foetidus: Optimization of physicochemical pa-rameters, Nanoscience and Nanotechnology Letters 6 (3),March 2014, Pages 181-189

1938. Suresh, G., Gunasekar, P.H., Kokila, D., Prabhu, D., Dinesh,D., Ravichandran, N., Ramesh, B., Koodalingam, A., VijaiyanSiva, G. Green synthesis of silver nanoparticles using Delp-hinium denudatum root extract exhibits antibacterial andmosquito larvicidal activities, Spectrochimica Acta - Part A:Molecular and Biomolecular Spectroscopy, Volume 127, 5June 2014, Pages 61-66

1937. Jeeva, K; Thiyagarajan, M; Elangovan, V; Geetha, N;Venkatachalam, P Caesalpinia coriaria leaf extracts me-diated biosynthesis of metallic silver nanoparticles andtheir antibacterial activity against clinically isolated pat-hogens, INDUSTRIAL CROPS AND PRODUCTS, 52 714-720;10.1016/j.indcrop.2013.11.037 JAN 2014

1936. Xu, LH; Kan, CX; Wang, CS; Cong, B; Ni, Y; Shi, DNSynthesis of Ag Nanostructures with Controlled Shapesby a Polyvinylpyrrolidone-Assisted Hydrothermal Met-hod, ACTA PHYSICO-CHIMICA SINICA, 30 (3):569-575;10.3866/PKU.WHXB201312253 FEB 2014

1935. Liu, S.-J. The plasmonic nanostructures applied in the pho-tovoltaic cell, Advanced Materials Research Volume 893,2014, Pages 186-189, 2013 3rd International Conference onAdvanced Materials and Engineering Materials 2013, CA-MEM 2013; Code 103207

1934. Sun, Y., Liu, H., Yang, L., Sun, B., Liu, J. Transformation ofthiolated chitosan-templated gold nanoparticles to hugemicrocubes, Materials Research Bulletin Volume 53, May2014, Pages 89-95

1933. Xu, L.-H., Kan, C.-X., Wang, C.-S., Cong, B., Ni, Y., Shi, D.-N.Synthesis of ag nanostructures with controlled shapes by apolyvinylpyrrolidone-assisted hydrothermal method (2014)Wuli Huaxue Xuebao/ Acta Physico - Chimica Sinica, 30 (3)pp. 569-575.

1932. Chen, D., Yin, L., Li, F., Zhu, G., Huang, Y., Wu, J. Facile fabri-cation of highly dispersed silver spheres with controllablesizes in the presence of gelatin, (2014) Journal of MaterialsScience: Materials in Electronics, 25 (5) pp. 2143-2148.

1931. Lokina, S., Suresh, R., Giribabu, K., Stephen, A., LakshmiSundaram, R., Narayanan, V. Spectroscopic investigations,antimicrobial, and cytotoxic activity of green synthesizedgold nanoparticles, Spectrochimica Acta - Part A: Molecu-lar and Biomolecular Spectroscopy Volume 129, 14 August2014, Pages 484-490

1930. Lee, K., Hahn, R., Schmuki, P. Photocatalytic H2 productionon self-decorated Au nanoparticles/TiO2 nanotubes undervisible light, Electrochemistry Communications Volume 43,June 2014, Pages 105-108


1929. El-Naggar, N.E.-A., Abdelwahed, N.A.M., Darwesh, O.M.M.Fabrication of biogenic antimicrobial silver nanoparticles byStreptomyces aegyptia NEAE 102 as eco-friendly nanofac-tory, Journal of Microbiology and Biotechnology Volume 24,Issue 4, 2014, Pages 453-464

1928. Bansal, A; Verma, SS Tailoring LSPR-Based Absorption andScattering E�ciencies of Semiconductor-Coated Au na-noshells, PLASMONICS, 9 (2):335-341; 10.1007/s11468-013-9629-4 APR 2014

1927. Goncalves, M.R. Plasmonic nanoparticles: Fabrication, si-mulation and experiments, Journal of Physics D: AppliedPhysics Volume 47, Issue 21, 30 May 2014, Article number213001

1926. Cardoso-Avila, P.E., Pichardo-Molina, J.L., Kumar, K.U.,Arenas-Alatorre, J.A. Temperature and amino acid-assistedsize- and morphology-controlled photochemical synthesisof silver decahedral nanoparticles, Journal of ExperimentalNanoscience Volume 9, Issue 6, July 2014, Pages 639-651

1925. Bansal, A. , Verma, S.S Simulated study of plasmoniccoupling in noble bimetallic alloy nanosphere arrays, AIPAdvances Volume 4, Issue 5, May 2014, Article number057104

1924. Kalainila, P., Subha, V., Ernest Ravindran, R.S., Renganathan,S. Synthesis and characterization of silver nanoparticle fromErythrina indica, Asian Journal of Pharmaceutical and Cli-nical Research, Volume 7, Issue SUPPL. 2, May 2014, Pages39-43

1923. Kannan, P., Los, M., Los, J.M., Niedziolka-Jonsson, J. T7 bac-teriophage induced changes of gold nanoparticle morpho-logy: Biopolymer capped gold nanoparticles as versatileprobes for sensitive plasmonic biosensors, Analyst 139, Is-sue 14, 21 July 2014, Pages 3563-3571

1922. Emmanuel, R., Karuppiah, C., Chen, S.-M., Palanisamy, S.,Padmavathy, S., Prakash, P. Green synthesis of gold na-noparticles for trace level detection of a hazardous pollu-tant (nitrobenzene) causing Methemoglobinaemia, Journalof Hazardous Materials Volume 279, 30 August 2014, Pages117-124

1921. Kalainila, P., Subha, V., Ernest Ravindran, R.S., Renganathan,S. Synthesis and characterization of silver nanoparticle fromErythrina indica, Asian Journal of Pharmaceutical and Cli-nical Research Volume 7, Issue SUPPL. 2, May 2014, Pages39-43

1920. Rezaee, P. , Kermanshahi, R.K., Katouli, M. Prebiotics decrea-se the antibacterial e�ect of nano silver and nano TiO2 par-ticles against probiotic bacteria of food, Current Nutritionand Food Science Volume 10, Issue 2, 2014, Pages 88-93

1919. Pushpanathan, V. , Kumar, D.S. Synthesis and characteriza-tion of Zn nanoparticles by using hetero-bicyclic compound,Advanced Materials Research Volume 938, 2014, Pages 3-8

1918. Ulug, B., Haluk Turkdemir, M., Cicek, A., Mete, A. Role of irra-diation in the green synthesis of silver nanoparticles me-diated by �g (Ficus carica) leaf extract, Spectrochimica Acta- Part A: Molecular and Biomolecular Spectroscopy Volume135, 25 January 2015, Pages 153-161


1916. El-Dessouky, R., Georges, M., Azzazy, H.M.E. Silver nanos-tructures: Properties, synthesis, and biosensor applications,ACS Symposium Series Volume 1112, 26 November 2012, Pa-ges 359-404

1915. Yu, T., Wu, Z., Kim, W.-S. Mild temperature synthesis ofgold nanoplates using polyethyleneimine and their impro-ved surface enhanced Raman signal, RSC Advances Volume4, Issue 71, 2014, Pages 37516-37521

1914. Wu, W., Maye, M.M. Discrete dipole approximation analy-sis of plasmonic core/alloy nanoparticles, ChemPhysChemVolume 15, Issue 12, 25 August 2014, Pages 2582-2587

1913. Mazzoni, M., Ratto, F., Fortunato, C., Centi, S., Tatini, F., Pini, RPartial decoupling in aggregates of silanized gold nanorods,Journal of Physical Chemistry C Volume 118, Issue 34, August28, 2014, Pages 20018-20025

1912. Ali, S., Iqbal, Y., Ajmal, M., Gonella, F., Cattaruzza, E., Qua-ranta, A Field-driven di�usion of transition metal and rare-earth ions in silicate glasses, Journal of Non-Crystalline So-lids Volume 405, 1 December 2014, Pages 39-44

1911. Ajitha, B., Ashok Kumar Reddy, Y., Sreedhara Reddy, P En-hanced antimicrobial activity of silver nanoparticles withcontrolled particle size by pH variation, Powder TechnologyVolume 269, January 01, 2015, Pages 110-117

1910. Kalainila, P., Subha, V., Ernest Ravindran, R.S., Renganathan,S. E�ect of green synthesized silver nanoparticles incorpo-rated with gelatin for sustained drug release, InternationalJournal of ChemTech Research Volume 6, Issue 10, 2014,Pages 4542-4549

1909. El-Sheekh, MM; El-Kassas, HY Application of Biosynt-hesized Silver Nanoparticles Against a Cancer Promo-ter Cyanobacterium, Microcystis aeruginosa, ASIAN PACI-FIC JOURNAL OF CANCER PREVENTION, 15 (16):6773-6779;10.7314/APJCP.2014.15.16.6773 SEP 2 2014

1908. Ramesh, M., Anbuvannan, M., Viruthagiri, G. Green synthesisof ZnO nanoparticles using Solanum nigrum leaf extract


and their antibacterial activity, Spectrochimica Acta - PartA: Molecular and Biomolecular Spectroscopy Volume 136,Issue PB, 5 February 2015, Pages 864-870

1907. Klinkova, A., Therien-Aubin, H., Ahmed, A., Nykypanchuk,D., Choueiri, R.M., Gagnon, B., Muntyanu, A., Gang, O., Wal-ker, G.C., Kumacheva, E. Structural and optical properties ofself-assembled chains of plasmonic nanocubes, Nano Let-ters Volume 14, Issue 11, 12 November 2014, Pages 6314-6321

1906. Abd El-Aziz, A.R.M. Eco-friendly biosynthesis of silver nano-particles by Aspergillus parasiticus, Digest Journal of Nano-materials and Biostructures Volume 9, Issue 4, 2014, Pages1485-1492

1905. Nitinaivinij, K., Parnklang, T., Thammacharoen, C., Ekgasit,S., Wongravee, K. Colorimetric determination of hydrogenperoxide by morphological decomposition of silver nano-prisms coupled with chromaticity analysis , Analytical Met-hods Volume 6, Issue 24, 21 December 2014, Pages 9816-9824

1904. Bansal, A. , Verma, S.S. Optical response of noble metalalloy nanostructures, Physics Letters, Section A: General,Atomic and Solid State Physics Volume 379, Issue 3, 23 Ja-nuary 2015, Pages 163-169

1903. Khalil, MMH; Ismail, EH; El-Baghdady, KZ; Mohamed, DGreen synthesis of silver nanoparticles using olive leafextract and its antibacterial activity, ARABIAN JOURNALOF CHEMISTRY, 7 (6):1131-1139; 10.1016/j.arabjc.2013.04.007DEC 2014

1902. Heon, L; Kim, HG; Kim, BH; Yun, JJ; Chung, M; Ahn, HG; Lee,YS; Jung, SC Investigation on Sized-Regulated Iron Nano-particles Prepared by Liquid Phase Plasma Reduction Pro-cess, JOURNAL OF NANOSCIENCE AND NANOTECHNOLOGY,15 (1):518-521; 10.1166/jnn.2015.8339 JAN 2015

1901. Kaur, R., Pal, B. Cu nanostructures of various shapes andsizes as superior catalysts for nitro-aromatic reduction andco-catalyst for Cu/TiO2 photocatalysis, Applied Catalysis A:General Volume 491, 2014, Pages 28-36

1900. Arun, G., Eyini, M., Gunasekaran, P. Green synthesis of silvernanoparticles using the mushroom fungus Schizophyllumcommune and its biomedical applications, 2015 Biotechno-logy and Bioprocess Engineering 19 (6), pp. 1083-1090

1899. Cepoi, L.; Rudi, L.; Chiriac, T.; et al. Biochemical changes incyanobacteria during the synthesis of silver nanoparticles,CANADIAN JOURNAL OF MICROBIOLOGY 61 (1) Pages: 13-21JAN 2015

1898. Emam, H.E., Zahran, M.K. Ag0 nanoparticles containing cot-ton fabric: Synthesis, characterization, color data and anti-bacterial action, International Journal of Biological Macro-molecules Volume 75, April 01, 2015, Pages 106-114

1897. Poopathi, S; De Britto, LJ; Praba, VL; Mani, C; Praveen, MSynthesis of silver nanoparticles from Azadirachta indica-amost e�ective method for mosquito control, ENVIRONMEN-TAL SCIENCE AND POLLUTION RESEARCH, 22 (4):2956-2963;10.1007/s11356-014-3560-x FEB 2015

1896. Zhang, C.-H., Zhu, J., Li, J.-J., Zhao, J.-W. Misalign-dependentdouble plasmon modes ”switch.of gold triangular nanoplatedimers, 2015 Journal of Applied Physics 117 (6), 063102

1895. Li, H., Sun, D.-E., Liu, Z. Ultrasensitive Biosensing PlatformBased on the Luminescence Quenching Ability of Plasmo-nic Palladium Nanoparticles, 2015 Chemistry - A EuropeanJournal 21 (13), pp. 4944-4948

1894. Fritz, E.-C., Nimphius, C., Goez, A., (...), Glorius, F., Ravoo,B.J. Sequential surface modi�cation of Au nanoparticles:From surface-bound AgI complexes to Ag0 doping, 2015Chemistry - A European Journal 21 (12), pp. 4541-4545

1893. Benyettou, F., Nchimi- Nono, K., Jouiad, M., (...), Saleh, N.,Trabolsi, A. Viologen-templated arrays of cucurbit[7]uril-modi�ed iron-oxide nanoparticles, 2015 Chemistry - A Eu-ropean Journal 21 (12), pp. 4607-4613

1892. Sikdar, D., Cheng, W., Premaratne, M. Optically resonantmagneto-electric cubic nanoantennas for ultra-directionallight scattering, 2015 Journal of Applied Physics 117 (8),083101

1891. El-Zahry, M.R., Mahmoud, A., Refaat, IH; Mohamed, HA;Bohlmann, H; Lendl, B Antibacterial e�ect of various sha-pes of silver nanoparticles monitored by SERS, 2015 Talanta138, 15395, pp. 183-189

1890. Jana, D., Matti, C., He, J., Sagle, L. Capping Agent-Free GoldNanostars Show Greatly Increased Versatility and Sensitivityfor Biosensing, 2015 Analytical Chemistry 87 (7), pp. 3964-3972


1888. Zhang, Y.-F., Wang, J.-H., Ma, L., (...), Zhou, L., Wang, Q.-Q. Growth of silver-coated gold nanoshells with enhancedlinear and nonlinear optical responses, 2015 Journal of Na-noparticle Research 17 (3)


1887. Siva, S; Sudharsan, S; Kannan, RS Selective Co(II) remo-val from aqueous media by immobilizing silver nanopar-ticles within a polymer-matrix through a formaldehydecross linking agent, RSC ADVANCES, 5 (30):23340-23349;10.1039/c4ra15510f 2015

1886. Liang, J.-L., Shen, S.-W., Ye, S.-Y., Ye, L.-M. Prediction of sizedistribution of Ag nanoparticles synthesized via gamma-ray radiolysis, 2015 Radiation Physics and Chemistry 114,pp. 5-11

1885. Dutta Roy, S., Ghosh, M., Chowdhury, J. Adsorptive parame-ters and in�uence of hot geometries on the SER(R) S spectraof methylene blue molecules adsorbed on gold nanocolloi-dal particles, 2015 Journal of Raman Spectroscopy46 (5),pp. 451-461

1884. Sridevi, A., Sandhya, A., Suvarnalatha Devi, P. Characteriza-tion and antibacterial studies of leaf assisted silver nano-particles from carica papaya: A green synthetic approach,(2015) International Journal of Pharmacy and Pharmaceuti-cal Sciences, 7 (5) pp. 143-146.

1883. Dauthal, P; Mukhopadhyay, M Agro-industrial waste-mediated synthesis and characterization of gold and silvernanoparticles and their catalytic activity for 4-nitroanilinehydrogenation, KOREAN JOURNAL OF CHEMICAL ENGINEE-RING, 32 (5):837-844; 10.1007/s11814-014-0277-y MAY 2015

1882. Venkatachalam, P; Sangeetha, P; Geetha, N; Sahi, SV Phy-tofabrication of Bioactive Molecules Encapsulated MetallicSilver Nanoparticles from Cucumis sativus L. and Its Enhan-ced Wound Healing Potential in Rat Model, JOURNAL OF NA-NOMATERIALS, 10.1155/2015/753193 2015

1881. Patil, S; Desai, N; Mahadik, K; Paradkar, A Can greensynthesized propolis loaded silver nanoparticulate gelenhance wound healing caused by burns?, EURO-PEAN JOURNAL OF INTEGRATIVE MEDICINE, 7 (3):243-250;10.1016/j.eujim.2015.03.002 MAY 2015

1880. Roy, S.D., Ghosh, M., Chowdhury, J. How hottest geometriesand adsorptive parameters in�uence the SER(R)S spectra ofMethylene Blue molecules adsorbed on nanocolloidal goldparticles of varied sizes?, 2015 Spectrochimica Acta - Part A:Molecular and Biomolecular Spectroscopy 151, pp. 796-806

1879. De Puig, H., Tam, J.O., Yen, C.-W., Gehrke, L., Hamad-Schi�erli, K. Extinction Coe�cient of Gold Nanostars, 2015Journal of Physical Chemistry C 119 (30), pp. 17408-17415

1878. Arif, D., Niazi, M.B.K., Ul-Haq, N., Anwar, M.N., Hashmi, E.Preparation of antibacterial cotton fabric using chitosan-silver nanoparticles, 2015 Fibers and Polymers 16 (7), pp.1519-1526

1877. Dhanasekar, N.N., Rahul, G.R., Narayanan, K.B., Raman, G.,Sakthivel, N. Green chemistry approach for the synthesisof gold nanoparticles using the fungus Alternaria sp, 2015Source of the DocumentJournal of Microbiology and Bio-technology 25 (7), pp. 1129-1135

1876. Capek, I. Viral nanoparticles, noble metal decorated virusesand their nanoconjugates, 2015 Advances in Colloid andInterface Science 222, pp. 119-134

1875. Lavakumar, V., Masilamani, K., Ravichandiran, V., (...), As-hok Kumar, C.K., Sowmya, C. Promising upshot of silver na-noparticles primed from Gracilaria crassa against bacterialpathogens, 2015 Chemistry Central Journal 9 (1), 42

1874. Chandra, S., Doran, J., McCormack, S.J. Two step continuousmethod to synthesize colloidal spheroid gold nanorods,2015 Journal of Colloid and Interface Science 459, pp. 218-223

1873. Capek, I. Viral nanoparticles, noble metal decorated virusesand their nanoconjugates, Advances in Colloid and InterfaceScience Volume 222, 12 August 2015, Pages 119-134

1872. Shahbazia, B., Khodabandehloo, M., Rezaei, M.J., (...), Ra-mazanzadeh, R., Basirie, M.R. In vivo and in vitro cytotoxi-city and mutagenicity considerations of poly (amido ami-ne) dendrimer, 2015 Journal of Reports in PharmaceuticalSciences 4 (1), pp. 101-110

1871. El-Kassas, H.Y., El Komi, M.M. Biogenic silver nanoparticlesusing seaweed Ulva rigida and their fungicidal and cytoto-xic e�ects, 2015 Journal of King Abdulaziz University, Mari-ne Science25 (1), pp. 3-20

1870. Salhi, M; Passian, A; Siopsis, G Toroidal nanotraps for coldpolar molecules, PHYSICAL REVIEW A, 92 (3):10.1103/Phys-RevA.92.033416 SEP 14 2015

1869. Serin, A; Bourlion, M; Diologent, F; Ziegenhagen, R; Ger-main, V New deeply coloured 18-K gold materials builtby nanotechnologies, GOLD BULLETIN, 48 (1-2):13-20;10.1007/s13404-014-0154-9 AUG 2015

1868. Chandra, S.; Doran, J.; McCormack, S. J. Two step conti-nuous method to synthesize colloidal spheroid gold nano-rods,JOURNAL OF COLLOID AND INTERFACE SCIENCE 459,218-223 DEC 1 2015

1867. Siva, S., Sudharsan, S., Sayee Kannan, R. Synthesis, cha-racterization and ion-exchange properties of novel hybridpolymer nanocomposites for selective and e�ective mer-cury(II) removal, 2015 RSC Advances 5 (97), pp. 79665-79678


1866. Morita-Imura, C., Kobayashi, T., Imura, Y., Kawai, T., Shin-do, H. PH-induced recovery and redispersion of shape-controlled gold nanorods for nanocatalysis, 2015 RSC Ad-vances 5 (93), pp. 75889-75894

1865. Patil, S., Desai, N., Mahadik, K., Paradkar, A. Can green synt-hesized propolis loaded silver nanoparticulate gel enhancewound healing caused by burns?, 2015 European Journal ofIntegrative Medicine 7 (3), pp. 243-250

1864. Lizundia, E., Ruiz-Rubio, L., Vilas, J.L., Leon, L.M. Poly(l-lactide)/zno nanocomposites as e�cient UV-shieldingcoatings for packaging applications, 2016 Journal of Ap-plied Polymer Science 133 (2), 42426


1862. Al-Omair, MA Synthesis of Antibacterial Silver-Poly(epsilon-caprolactone)-Methacrylic Acid Gra� Copolymer Nano�bersand Their Evaluation as Potential Wound Dressing, POLY-MERS, 7 (8):1464-1475; 10.3390/polym7081464 AUG 2015

1861. Pal, S., Tak, Y.K., Song, J.M. Does the antibacterial activity ofsilver nanoparticles depend on the shape of the nanopar-ticle? A study of the gram-negative bacterium Escherichiacoli 2015 Journal of Biological Chemistry 290 (42), pp. 1712-1720

1860. Vartia, O.S., Yla-Oijala, P., Markkanen, J., (...), Sihvola, A.,Ala-Nissila, T. On the applicability of discrete dipole appro-ximation for plasmonic particles, 2016 Journal of Quantita-tive Spectroscopy and Radiative Transfer 169, pp. 23-35


1858. Ortega-Mendoza, JG; Hernandez-Alvarez, C; Padilla-Vivanco, A; Toxqui-Quitl, C; Zaca-Moran, P; Chavez, F;Goiz, O Photomelting and photofragmentation of silvernanoparticles suspended in ethanol, NANOPHOTONICMATERIALS XII, 9545 10.1117/12.2188730 2015

1857. Attanayake, T; Premaratne, M; Agrawal, G Characterizingthe Optical Response of Symmetric Hemispherical Nano-dimers, PLASMONICS, 10 (6):1453-1466; 10.1007/s11468-015-9946-x DEC 2015

1856. Chekini, M; Cataldi, U; Moroni, P; Guenee, L; Cerny, R;Burgi, T Preparation of Anisotropic and Oriented Particleson a Flexible Substrate, LANGMUIR, 31 (48):13221-13229;10.1021/acs.langmuir.5b03524 DEC 8 2015

1855. Schnitzer, O. Singular perturbations approach to locali-zed surface-plasmon resonance: Nearly touching metal na-nospheres, 2015 Physical Review B - Condensed Matter andMaterials Physics 92 (23), 235428

1854. Kavyashree, D., Anandakumari, R., Nagabhushana, H., (...),Raja Naik, H., Lingaraju, K. Kalonji seed extract mediatedgreen synthesis of ZnO nanopowders: Photocatalytic, anti-bacterial and antioxidant activities, 2015 Materials ScienceForum 830-831, pp. 533-536

1853. Tang, Y; Fu, XL; Ban, GJ; Peng, ZJ Synthesis and AbsorptionSpectra of AuAg Alloyed Nanotubes, RARE METAL MATERIALSAND ENGINEERING, 44 417-420; 1 NOV 2015

1852. Dhibi, A., Khemiri, M., Oumezzine, M. Theoretical study ofsurface plasmons coupling in transition metallic alloy 2Dbinary grating, 2016 Physica E: Low-Dimensional Systemsand Nanostructures 79, pp. 160-166

1851. Sangeetha, R., Niranjan, P., Dhanalakshmi, N. Characteriza-tion of silver nanoparticles synthesized using the extract ofthe leaves of Tridax procumbens, 2016 Research Journal ofMedicinal Plant 10 (2), pp. 159-166


1849. Kamel, Z., Saleh, M., El Namoury, N. Biosynthesis, charac-terization, and antimicrobial activity of silver nanoparticlesfrom actinomycetes, 2016 Research Journal of Pharmaceu-tical, Biological and Chemical Sciences 7 (1), pp. 119-127

1848. Yao, H. Monolayer-protected metal nanoclusters with chira-lity: Synthesis, size fractionation, optical activity and asym-metric transformation, 2015 Handbook of Nanoparticles pp.191-216

1847. Imura, Y., Furukawa, S., Ozawa, K., (...), Kawai, T., Komat-su, T. Surface clean gold nano�ower obtained by completeremoval of capping agents: An active catalyst for alcoholoxidation, 2016 RSC Advances 6 (21), pp. 17222-17227

1846. Farah, MA; Ali, MA; Chen, SM; Li, Y; Al-Hemaid, FM; Abou-Tarboush, FM; Al-Anazi, KM; Lee, J. Silver nanoparticlessynthesized from Adenium obesum leaf extract inducedDNA damage, apoptosis and autophagy via generation ofreactive oxygen species, 2016 Colloids and Surfaces B: Bio-interfaces 141, pp. 158-169

1845. He, W; Liu, XJ; Kienzle, A; Muller, WEG; Feng, QL In VitroUptake of Silver Nanoparticles and Their Toxicity in HumanMesenchymal Stem Cells Derived from Bone Marrow, JOUR-NAL OF NANOSCIENCE AND NANOTECHNOLOGY, 16 (1):219-228; 10.1166/jnn.2016.10728 JAN 2016


1844. Ankamwar, B., Kamble, V., Sur, U.K., Santra, C. Spectropho-tometric evaluation of surface morphology dependent ca-talytic activity of biosynthesized silver and gold nanoparti-cles using UV-vis spectra: A comparative kinetic study, 2016Applied Surface Science 366, pp. 275-283

1843. Garg, V; Sengar, BS; Awasthi, V; Aaryashree; Sharma,P; Mukherjee, C; Kumar, S; Mukherjee, S Localized sur-face plasmon resonance on Au nanoparticles: tuningand exploitation for performance enhancement in ul-trathin photovoltaics, RSC ADVANCES, 6 (31):26216-26226;10.1039/c5ra25575a 2016

1842. Makwana, BA; Vyas, DJ; Bhatt, KD; Darji, S; Jain, VK No-vel �uorescent silver nanoparticles: sensitive and selectiveturn o� sensor for cadmium ions, APPLIED NANOSCIENCE,6 (4):555-566; 10.1007/s13204-015-0459-x APR 2016

1841. Subha, V; Ramadoss, P; Renganathan, S Incorpora-tion of biotransformed silver nanoparticles in plantpolysaccarides resin and their e�ect on sustaineddrug release, POLYMER SCIENCE SERIES B, 58 (1):61-72;10.1134/S1560090416010073 JAN 2016

1840. Ali, K., Dwivedi, S., Azam, A., (...), Alkhedhairy, A.A., Musa-rrat, J. Aloe vera extract functionalized zinc oxide nanopar-ticles as nanoantibiotics against multi-drug resistant clini-cal bacterial isolates, 2016 Journal of Colloid and InterfaceScience 472, pp. 145-156

1839. El-Sayed, A.A., Khalil, A.M., El-Shahat, M., Khaireldin, N.Y.,Rabie, S.T. Antimicrobial activity of PVC-pyrazolone-silvernanocomposites, 2016 Journal of Macromolecular Science,Part A: Pure and Applied Chemistry 53 (6), pp. 346-353

1838. Ajitha, B; Reddy, YAK; Reddy, PS; Jeon, HJ; Ahn, CW Role ofcapping agents in controlling silver nanoparticles size, anti-bacterial activity and potential application as optical hydro-gen peroxide sensor, RSC ADVANCES, 6 (42):36171-36179;10.1039/c6ra03766f 2016

1837. Erwin, WR; Zarick, HF; Talbert, EM; Bardhan, R Light trap-ping in mesoporous solar cells with plasmonic nanostruc-tures, ENERGY & ENVIRONMENTAL SCIENCE, 9 (5):1577-1601;10.1039/c5ee03847b 2016

1836. Zhang, J; Wang, Q; Zhang, XH; Wang, JG; Guo, M; Wiley, BJ;Li, CH; Hu, CW, Carbamide promoted polyol synthesis andtransmittance properties of silver nanocubes, INORGANICCHEMISTRY FRONTIERS, 3 (4):547-555; 10.1039/c5qi00256g2016

1835. Tau�kurohmah, T., Sanjaya, I.G.M., Baktir, A., Syahrani, A.Stability of colloidal silver nanoparticles synthesized withvariance silver ions as antimicrobial in cosmetic formula-tion, 2015 Asian Journal of Chemistry 27 (4), pp. 1525-1528

1834. Lee, Y.K., Lee, H., Lee, C., Hwang, E., Park, J.Y. Hot-electron-based solar energy conversion with metal-semiconductornanodiodes, 2016 Journal of Physics Condensed Matter 28(25), 254006

1833. Elfassy, E., Mastai, Y., Salomon, A. Cysteine sensing by plas-mons of silver nanocubes, 2016 Journal of Solid State Che-mistry 241, pp. 110-114

1832. CASTILLO, C; BUONO-CORE, G; MANZUR, C; etal.MOLYBDENUM TRIOXIDE THIN FILMS DOPED WITHGOLD NANOPARTICLES GROWN BY A SEQUENTIAL METHO-DOLOGY: PHOTOCHEMICAL METAL-ORGANIC DEPOSITION(PMOD) AND DC-MAGNETRON SPUTTERING, Journal of theChilean Chemical Society 61, 2816-2820 (2016)

1831. Efa�, B., Majles Ara, M.H., Mousavi, S.S. Strong blue emis-sion from ZnO nanocrystals synthesized in acetone-basedsolvent, 2016 Journal of Luminescence 178, pp. 384-387

1830. Morita-Imura, C; Zama, K; Imura, Y; Kawai, T; Shindo,H Stimuli-Responsive Extraction and AmbidextrousRedispersion of Zwitterionic Amphiphile-Capped Sil-ver Nanoparticles, LANGMUIR, 32 (27):6948-6955;10.1021/acs.langmuir.6b01753 JUL 12 2016

1829. Wu, XL; Liu, WG; Li, JG; Zhu, Q; Li, XD; Sun, XD Sulfate Ex-change of the Nitrate-Type Layered Hydroxide Nanosheetsof Ln(2)(OH)(5)NO3 center dot nH(2)O for Better Dispersedand Multi-color Luminescent Ln(2)O(3) Nanophosphors (Ln= Y0.98RE0.02, RE = Pr, Sm, Eu, Tb, Dy, Ho, Er, and Tm), NA-NOSCALE RESEARCH LETTERS, 11 10.1186/s11671-016-1544-0JUL 12 2016

1828. Xing, TY; Zhu, J; Li, JJ; Zhao, JW Morphology modi�cationof gold nanoparticles from nanoshell to C-shape: Improvedsurface enhanced Raman scattering, JOURNAL OF APPLIEDPHYSICS, 119 (24):10.1063/1.4954977 JUN 28 2016

1827. Zhou, DD; Liu, BM; Zhou, Y; Chen, MZ; Fang, YZ; Hou, JS;Li, LN; Sun, HT Air-stable and highly luminescent bismuthcomplex nanoparticles, JOURNAL OF MATERIALS CHEMISTRYC, 4 (22):4899-4904; 10.1039/c6tc01327a 2016

1826. Lin, JY; Tsai, CY; Lin, PT; Hsu, TE; Hsiao, CF; Lee, PT Opti-cal Properties of Plasmonic Mirror-Image Nanoepsilon, 2016Nanoscale Research Letters 11 (1), 327

1825. Qin, ZP; Wang, YR; Randrianalisoa, J; Raeesi, V; Chan, WCW;Lipinski, W; Bischof, JC Quantitative comparison of photot-hermal heat generation between gold nanospheres and na-norods, 2016 Scienti�c Reports 6, 29836

1824. Britto Hurtado, R.; Cortez-Valadez, M.; Ramirez-Rodriguez, L.P.; et al. Instant synthesis of gold nanoparticles at room tem-perature and SERS applications, PHYSICS LETTERS A 380,2658-2663 (2016)


1823. Imura, C.-M., Mori, T., Imura, Y., Kawai, T. Dendritic goldnanowires supported on SiO2 nanoparticles fabricated bya seed growth method, 2016 New Journal of Chemistry 40(8), pp. 7048-7052

1822. Malynych, S., Moroz, I., Kurlyak, V. Ptical extinction spec-tra of the aqueous suspensions of ag nanoparticles, 2007Ukrainian Journal of Physical Optics 8 (1), pp. 54-59

1821. Ali, A; Zafar, H; Zia, M; Haq, IU; Phull, AR; Ali, JS; Hussain, ASynthesis, characterization, applications, and challenges ofiron oxide nanoparticles, NANOTECHNOLOGY SCIENCE ANDAPPLICATIONS, 9 49-67; 10.2147/NSA.S99986 2016

1820. Patel, AS; Sahoo, H; Mohanty, T Investigating the EnergyTransfer from Dye Molecules to DNA Stabilized Au Nano-particles, JOURNAL OF FLUORESCENCE, 26 (5):1849-1855;10.1007/s10895-016-1878-0 SEP 2016

1819. Wen, ZW; Liang, CY; Bi, H; Li, YS; Che, RC Controllable synt-hesis of elongated hexagonal bipyramid shaped La(OH)(3)nanorods and the distribution of electric property by o�-axis electron holography, NANO RESEARCH, 9 (9):2561-2571;10.1007/s12274-016-1142-6 SEP 2016

1818. Ethiraj, A.S., Jayanthi, S., Ramalingam, C., Banerjee, C. Con-trol of size and antimicrobial activity of green synthesizedsilver nanoparticles, 2016 Materials Letters 185, pp. 526-529

1817. Nasilowski, M., Mahler, B., Lhuillier, E., Ithurria, S., Dubertret,B. Two-Dimensional Colloidal Nanocrystals 2016 ChemicalReviews 116 (18), pp. 10934-10982

1816. Moreno-Trejo, MB; Sanchez-Dominguez, M Mesquite Gumas a Novel Reducing and Stabilizing Agent for Modi�ed To-llens Synthesis of Highly Concentrated Ag Nanoparticles,MATERIALS, 9 (10):10.3390/ma9100817 OCT 2016

1815. Das, K; Sarkar, S; Das, PK Fluorescent Indicator Displace-ment Assay: Ultrasensitive Detection of Glutathione andSelective Cancer Cell Imaging, ACS APPLIED MATERIALS &INTERFACES, 8 (39):25691-25701; 10.1021/acsami.6b06353OCT 5 2016

1814. Ali, A., Zafar, H., Zia, M., (...), Ali, J.S., Hussain, A. Synthesis,characterization, applications, and challenges of iron oxidenanoparticles, 2016 Nanotechnology, Science and Applica-tions 9, pp. 49-67

1813. Siva, S., Anandhavelu, S., Revathi, R., Jeeva Rose, K., Yoga-nanth, A. Preparation of Chitosan/Seaweed-ZnO nanorodsfor better antibacterial activity, 2016 International Journalof Control Theory and Applications 9 (9), pp. 4003-4008

1812. Abd-Elnaby, H.M., Abo-Elala, G.M., Abdel-Raouf, U.M., Ha-med, M.M. Antibacterial and anticancer activity of extrace-llular synthesized silver nanoparticles from marine Strep-tomyces rochei MHM13, 2016 Egyptian Journal of AquaticResearch 42 (3), pp. 301-312

1811. Moreno-Trejo, M.B., Sanchez-Dominguez, M. Mesquite gumas a novel reducing and stabilizing agent for modi�ed to-llens synthesis of highly concentrated ag nanoparticles,2016 Materials 9 (10), 817

1810. Zhu, JJ; Kan, CX; Wu, YZ; Wan, JG; Han, M; Wang, GHA Novel Discovery of Growth Process for Ag Nanowiresand Plausible Mechanism, JOURNAL OF NANOMATERIALS,10.1155/2016/5812739 2016

1809. da Silva Ferreira, V., ConzFerreira, M.E., Lima, L.M.T.R., (...),de Souza, W., SantAnna, C. Green production of microalgae-based silver chloride nanoparticles with antimicrobial acti-vity against pathogenic bacteria, 2017 Enzyme and Micro-bial Technology 97, pp. 114-121

1808. Debu, D.T., Ghosh, P.K., French, D., Herzog, J.B. Surface plas-mon damping e�ects due to Ti adhesion layer in individualgold nanodisks, 2017 Optical Materials Express 7 (1), pp.73-84

1807. Afzalian Mend, B., Delavar, M., Darroudi, M. CdO-NPs; synt-hesis from 1D new nano Cd coordination polymer, charac-terization and application as anti-cancer drug for reducingthe viability of cancer cells, 2017 Journal of Molecular Struc-ture 1134, pp. 599-605

1806. Medhat, M; El-Batawy, YM; Abdelmageed, AK; Soliman, EAGear Nano Antenna for Plasmonic Photovoltaic, 2016 IEEEMIDDLE EAST CONFERENCE ON ANTENNAS AND PROPAGA-TION (MECAP), 2016

1805. Yao, H; Shiratsu, T Multipolar Surface Magnetoplasmon Re-sonances in Triangular Silver Nanoprisms studied by MCDSpectroscopy, JOURNAL OF PHYSICAL CHEMISTRY C, 121(1):761-768; 10.1021/acs.jpcc.6b11216 JAN 12 2017

1804. Chang, H., Gao, W., Sun, X., Tan, H., Sun, S. Preparation,characterization and antibiotic properties of silver-siliconnanocomposites, 2017 New Journal of Chemistry 41 (3), pp.1313-1320

1803. Abtahi, S.M.H., Burrows, N.D., Idesis, F.A., (...), Saleh, N.B., Vi-kesland, P.J. Sulfate-Mediated End-to-End Assembly of GoldNanorods, 2017 Langmuir 33 (6), pp. 1486-1495

1802. Rajeshkumar, S., Malarkodi, C., Venkat Kumar, S. Synthesisand characterization of silver nanoparticles from marinebrown seaweed and its antifungal e�ciency against clinicalfungal pathogens, 2017 Asian Journal of Pharmaceutical andClinical Research 10 (2), pp. 190-193


1801. Lee, K; Kim, M; Eo, K; Hwang, D; Choi, K; Kwon, YK Pre-paration and antimicrobial activity of silver nanoparticlesimmobilized on hollow mesoporous nanospheres, 2017 Ma-cromolecular Research 25(2), pp. 197-200

1800. Cesaria, M., Di Bartolo, B. Nanomaterials: Basic conceptsand quantum models, 2017 NATO Science for Peace andSecurity Series B: Physics and Biophysics pp. 43-105

1799. Imura, Y; Fukuda, K; Morita-Imura, C; Kawai, T Wa-ter and Organic Solvent Dispersible Gold Nanorods thatare pH Responsive, CHEMISTRYSELECT, 1 (17):5404-5408;10.1002/slct.201601248 OCT 16 2016

1798. Karimipour, SN; Tanomand, A Evaluating the AntibacterialActivity of the Nanoparticles of Silver on Pseudomonas Ae-ruginosa, INTERNATIONAL JOURNAL OF MEDICAL RESEARCH& HEALTH SCIENCES, 5 (11):424-430; 2016

1797. Sun, R; Li, GY; He, WN; Wang, J; Song, QJ; Zhang, XTGraphene Hybrid Aerogels Made via Phase Transfer Stra-tegy, ADVANCED MATERIALS INTERFACES, 3 (22):10.1002/ad-mi.201600541 NOV 18 2016


1795. Ullah, MN; Umer, A; Aadil, MA; Rehman, F; Ramzan, N Plant-based synthesis of silver nanoparticles and their characte-ristic properties, BIOINSPIRED BIOMIMETIC AND NANOBIO-MATERIALS, 6 (1):20-36; 10.1680/jbibn.16.00033 MAR 2017

1794. Toth, Z.-R., Kovacs, G., Hernadi, K., Baia, L., Pap, Z. The in-vestigation of the photocatalytic e�ciency of spherical goldnanocages/TiO2 and silver nanospheres/TiO2 composites,2017 Separation and Puri�cation Technology 183, pp. 216-225

1793. Mankad, M; Patil, G; Patel, S; Patel, D; Patel, A Greensynthesis of zinc oxide nanoparticles using Azadirachtaindica A. Juss. leaves extract and its antibacterial acti-vity against Xanthomonas orzyae pv. oryzae, ANNALS OFPHYTOMEDICINE-AN INTERNATIONAL JOURNAL, 5 (2):76-86;2016

1792. El-Kassas, HY; Ghobrial, MG Biosynthesis of metal nano-particles using three marine plant species: anti-algal e�-ciencies against “Oscillatoria simplicissima”, ENVIRONMEN-TAL SCIENCE AND POLLUTION RESEARCH, 24 (8):7837-7849;2017

1791. Toth, Z.-R., Kovacs, G., Hernadi, K., Baia, L., Pap, Z. The in-vestigation of the photocatalytic e�ciency of spherical gold

nanocages/TiO2 and silver nanospheres/TiO2 composites,2017 Separation and Puri�cation Technology 183, pp. 216-225

1790. Zhou, QQ; Lv, JC; Cai, L; Ren, Y; Chen, JY; Gao, DW; Lu,ZQ; Wang, CX Preparation and characterization of ZnO/AGEMNPs with aloe gel extract and its application on linen fa-bric, 2017 Journal of the Textile Institute 108(8), pp. 1371-1378

1789. Vega-Baudrit, J., Alvarado-Meza, R., Solera-Jimenez, F. Synt-hesis of silver nanoparticles using chitosan as a coatingagent by sonochemical method, 2014 Avances en Quimica9(3), pp. 125-129

1788. Imura, Y., Koizumi, S., Akiyama, R., Morita-Imura, C., Kawai,T. Highly Stable Silica-Coated Gold Nano�owers Supportedon Alumina, 2017 Langmuir 33(17), pp. 4313-4318

1787. Kim, D.H., Park, J.C., Jeon, G.E., Kim, C.S., Seo, J.H. E�ectof the size and shape of silver nanoparticles on bacterialgrowth and metabolism by monitoring optical density and�uorescence intensity, 2017 Biotechnology and BioprocessEngineering 22(2), pp. 210-217

1786. Medhat, M; El-Batawy, YM; Abdelmageed, AK; Soliman,EA Plasmonic Photovoltaics Using Nano Crescent Antennas,IEEE, 2017 11TH EUROPEAN CONFERENCE ON ANTENNAS ANDPROPAGATION (EUCAP), 2017

1785. Mend, BA; Delavar, M; Darroudi, M CdO-NPs; synthesis from1D new nano Cd coordination polymer, characterization andapplication as anti-cancer drug for reducing the viabilityof cancer cells, JOURNAL OF MOLECULAR STRUCTURE, 1134599-605; 10.1016/j.molstruc.2016.12.077 APR 15 2017

1784. Ramirez, S., Silva, N., Oyarzun, M.P., Pavez, J., Silva, J.F. Goldnanostructures on self-assembled monolayers activity forepinephrine, noradrenaline and dopamine, 2017 Journal ofElectroanalytical Chemistry 799, pp. 349-357

1783. Manjari, G., Saran, S., Arun, T., Vijaya Bhaskara Rao, A., De-vipriya, S.P. Catalytic and recyclability properties of phy-togenic copper oxide nanoparticles derived from Aglaiaelaeagnoidea �ower extract, 2017 Journal of Saudi Chemi-cal Society 21(5), pp. 610-618

1782. Krishnaprabha, M., Pattabi, M. Biogenic synthesis of �uores-cent silver nanoparticles using Melastoma Malabathricum�ower extract, (2017) AIP Conference Proceedings, 1832, art.no. 050016

1781. El-Naggar, M.Y., Ramadan, W., El-Hamamsy, R.A. The ap-plication of mediated biosynthesized green silver nano-particles by streptomyces griseorubens in water treatment,(2017) Journal of Pure and Applied Microbiology, 11 (2) pp.685-694.


1780. Pergal, M.V., Balaban, M., Dojcinovic, B., Manojlovic, D.Thermoplastic polyurethane nanocomposites 2017 Thermo-plastic Composites: Emerging Technology, Uses and Pros-pects pp. 1-60

1779. Yuksel, A., Cullinan, M., Murthy, J. Polarization e�ect on outof plane con�gured nanoparticle packing, (2017) ASME 201712th International Manufacturing Science and EngineeringConference, MSEC 2017 collocated with the JSME/ASME 20176th International Conference on Materials and Processing,2

1778. Tomiyama, T; Yamazaki, H Optical anisotropy studies of sil-ver nanowire/polymer composite �lms with Mueller matrixellipsometry, APPLIED SURFACE SCIENCE, 421 831-836; SI10.1016/j.apsusc.2017.01.152 B NOV 1 2017

1777. Wang, Z., Zhang, Z.M., Quan, X., Cheng, P. A numerical studyon e�ects of surrounding medium, material, and geometryof nanoparticles on solar absorption e�ciencies, 2018 In-ternational Journal of Heat and Mass Transfer, 116, pp. 825-832.

1776. Melentiev, PN; Afanasiev, AE; Balykin, VI Single plasmonicsplit hole resonator nanostructure as an e�cient nanos-cale light source, QUANTUM ELECTRONICS, 47 (9):818-826;10.1070/QEL16468 2017

1775. Han, B; Gao, XQ; Shi, L; Zheng, YL; Hou, K; Lv, JW; Guo, J;Zhang, W; Tang, Z. Geometry-Modulated Magnetoplasmo-nic Optical Activity of Au Nanorod-Based Nanostructures,2017 Nano Letters, 17(10), pp. 6083-6089

1774. Aqbash, M.S., Rahimnejad, M., Pourali, M. E�ect of zincphosphate nanoparticles in combination with glass ionomercements on streptococcus mutans 2017 Journal of Mazan-daran University of Medical Sciences, 27(153), pp. 39-48

1773. Yuksel, A; Yu, ET; Murthy, J; Cullinan, M E�ect of Substra-te and Nanoparticle Spacing on Plasmonic Enhancementin Three-Dimensional Nanoparticle Structures, JOURNAL OFMICRO AND NANO-MANUFACTURING, 5 (4):10.1115/1.4037770DEC 2017

1772. Saraf, N; Bosak, A; Willenberg, A; Das, S; Willenberg, BJ; Seal,S Colorimetric detection of epinephrine using an optimi-zed paper-based aptasensor, RSC ADVANCES, 7 (77):49133-49143; 10.1039/c7ra10272k 2017

1771. Wang, Z; Liang, XW; Zhao, T; Hu, YG; Zhu, PL; Sun, RFacile synthesis of monodisperse silver nanoparticles forscreen printing conductive inks, JOURNAL OF MATERIALSSCIENCE-MATERIALS IN ELECTRONICS, 28 (22):16939-16947;10.1007/s10854-017-7614-y NOV 2017

1770. Wang, Z., Zhang, Z.M., Quan, X., Cheng, P. A numerical studyon e�ects of surrounding medium, material, and geometryof nanoparticles on solar absorption e�ciencies, 2018 In-ternational Journal of Heat and Mass Transfer, 116, pp. 825-832.

1769. Gupta, R.K., Kumar, V., Gundampati, R.K., (...), Hasan, S.H.,Jagannadham, M.V. Biosynthesis of silver nanoparticlesfrom the novel strain of Streptomyces Sp. BHUMBU-80 withhighly e�cient electroanalytical detection of hydrogen pe-roxide and antibacterial activity , 2017 Journal of Environ-mental Chemical Engineering, 5(6), pp. 5624-5635.

1768. El-Zahry, M.R., Lendl, B. Structure elucidation and degra-dation kinetic study of O�oxacin using surface enhancedRaman spectroscopy, 2018 Spectrochimica Acta - Part A:Molecular and Biomolecular Spectroscopy 193, pp. 63-70

1767. Nayak, R.R., Behera, D., Pradhan, N., Mishra, D.K. Tempera-ture controlled evolution of silver polypods from biomassencapsulated nano-droplets 2018 Journal of Nanoscienceand Nanotechnology 18(1), pp. 394-400

1766. Udayabhanu, J., Kannan, V., Tiwari, M., (...), Giovanni, B.,Perumal, V. Nanotitania crystals induced e�cient photoca-talytic color degradation, antimicrobial and larvicidal acti-vity, 2018 Journal of Photochemistry and Photobiology B:Biology 178, pp. 496-504

1765. Mala, M., Hannah Hepsibah, A., Jeya Jothi, G. Silver na-noparticles synthesis using Coccinia Grandis (L.) voigt andMomordica Charantia L, its characterization and biologicalscreening, 2017 Journal of Bionanoscience 11(6), pp. 504-513

1764. Ortega-Mendoza, G; Goiz, O; Padilla-Vivanco, A; Toxqui-Quitl, C; Zaca-Moran, P; Chavez, F Photofusion and Di-saggregation of Silver Nanoparticles Suspended in Ethanolby Laser Irradiation, CURRENT NANOSCIENCE, 14 (1):50-53;10.2174/1573413713666171002124415 2018

1763. Albuquerque, G.H., Squire, K., Wang, A.X., Herman, G.S. Con-tinuous Synthesis of Monodisperse Ag Nanocubes, CrystalGrowth and Design, 18(1), pp. 119-125

1762. Raghavendra, UP; Basanagouda, M; Melavanki, RM; Thippe-rudrappa, J E�ect of Plasmonic Silver Nanoparticles Size onPhotophysical Characteristics of 4-Aryloxymethyl Couma-rins, PLASMONICS, 13 (1):315-325; 10.1007/s11468-017-0516-2 FEB 2018

1761. Mendieta-Jimenez, A.L., Carpio-Martinez, P., Cortes-Guzman, F., Gomez-Espinosa, R.M. Design of growingpoints for silver nanoparticles on polypropylene membra-nes, 2018 Chemical Physics Letters 693, February 2018,Pages 159-164


1760. Luo, K., Jung, S., Park, K.-H., Kim, Y.-R. Microbial Biosynthesisof Silver Nanoparticles in Di�erent Culture Media, Journal ofAgricultural and Food Chemistry, 66(4), pp. 957-962 (2018).

1759. Ortega-Mendoza, G., Goiz, O., Padilla-Vivanco, A., (...), Zaca-Moran, P., Chavez, F. Photofusion and disaggregation of sil-ver nanoparticles suspended in ethanol by laser irradiation,2018 Current Nanoscience 14(1), pp. 50-53

TIPO B (2):

1758. Borensztein, Y; Delannoy, L; Barrera, RG; Louis, C Kineticsof the plasmon optical response of Au nanoparticles/TiO(2)catalyst under O(2) and H(2) followed by di�erential di�usere�ectance spectroscopy, EUROPEAN PHYSICAL JOURNAL D63 (2): 235-240 2011

1757. Gutierrez-Reyes, E., Garcia-Valenzuela, A., Barrera, R.G.Extension of Fresnels formulas for turbid colloidal suspen-sions: A rigorous treatment, Journal of Physical ChemistryB 118, Issue 22, 5 June 2014, Pages 6015-6031


Plasmonic Optical Properties and Applications of MetalNanostructures, Jin Z. Zhang, Cecilia Noguez, Plasmonics4, 127 – 150 (2008).

TIPO A (225):

1756. Wang, M.C.P., Gates, B.D., Directed assembly of nanowires,Materials Today 12, 34 (2009)

1755. Singh, J; Verma, SS Plasmonics with Nanostructure Mate-rials, Asian J. Chemistry 21, S081 (2009)

1754. Trinh LTT, Kjoniksen AL, Zhu KZ, Knudsen KD, Volden S,Glomm WR, Nystrom B Slow salt-induced aggregation ofcitrate-covered silver particles in aqueous solutions of ce-llulose derivatives, Colloid and Polymer Science 298, 1391(2009)

1753. X Gao and X Gan, Modulation of evanescent focus by loca-lized surface plasmons waveguide, Opt. Express 17, 22726(2009)

1752. Prudenzano, F., Mescia, L., Allegretti, L., De Sario, M.D., DiTommaso, A., Palmisano, T., Feron, Chiappini, A., Ferrari,M., Soria, S., Righini, G.C Modeling of nano-and micro-spheres for sensing applications, ICTON 2009: 11th Inter-national Conference on Transparent Optical Networks, art.no. 5185152 (2009)

1751. Karabchevsky A, Krasnykov O, Auslender M, Hadad B, Gold-ner A, Abdulhalim I, Theoretical and Experimental Investi-gation of Enhanced Transmission Through Periodic MetalNanoslits for Sensing in Water Environment, Plasmonics 4,281 (2009)

1750. Khlebtsov, NG; Dykman, LA, Optical properties and biomedi-cal applications of plasmonic nanoparticles, J. QuantitativeSpectroscopy & Radiative Transfer 111, 1-35 (2010)

1749. Trinh, L.T.T., Volden, S., Kjoniksen, A.-L., Zhu, K., Knudsen,K.D., Glomm, W.R., Nystrom, B, Temperature-induced ad-sorption and optical properties of an amphiphilic diblockcopolymer adsorbed onto �at and curved silver surfaces,J. of Colloid and Interface Science 342, 142 (2010)

1748. Seyed-Razavi, A; Snook, IK; Barnard, AS, Origin of nano-morphology: does a complete theory of nanoparticle evo-lution exist? J. of Materials Chem. 20, 416 (2010)

1747. I I. Naumov, Z Li, A M. Bratkovsky Plasmonic resonancesand hot spots in Ag octopods, Appl. Phys. Lett. 96, 033105(2010)

1746. Ha Minh Hiep, Hiroyuki Yoshikawa and Eiichi Tamiya Inter-ference Localized Surface Plasmon Resonance NanosensorTailored for the Detection of Speci�c Biomolecular Interac-tions, Anal. Chem. 82, 1221 (2010)

1745. Karabchevsky A, Krasnykov O, Abdulhalim I, Hadad B, Gold-ner A, Auslender M, Metal grating on a substrate nanostruc-ture for sensor applications, Photonics & Nanostructures-Fundamentals and Applications 7, 170 (2009)

1744. Prudenzano, F.; Mescia, L.; Allegretti, L.; De Sario, M.; DiTommaso, A.; Palmisano, T.; Feron, P.; Chiappini, A.; Ferrari,M.; Soria, S.; Righini, G. C.; Modeling of Nano- and Micro-Spheres for Sensing Applications, ICTON: 2009 11th Int. Conf.Transparent Optical Networks, Vols 1 and 2 : 869-872 (2009)

1743. Hiep, HM; Saito, M; Nakamura, Y; Tamiya, E RNA aptamer-based optical nanostructured sensor for highly sensiti-ve and label-free detection of antigen-antibody reactions,Analytical and Bioanalytical Chem. 396 (7): 2575-2581 APR2010

1742. Amendola, V; Bakr, OM; Stellacci, F A Study of the SurfacePlasmon Resonance of Silver Nanoparticles by the DiscreteDipole Approximation Method: E�ect of Shape, Size, Struc-ture, and Assembly, Plasmonics 5 (1): 85 (2010)

1741. Sykora, D; Kasicka, V; Miksik, I; Rezanka, P; Zaruba, K; Ma-tejka, P; Kral, V Application of gold nanoparticles in sepa-ration sciences, J. Saparation Sci. 33 (3): 372-387 FEB 2010

1740. Kim, K.-H., Husakou, A., Herrmann, J. Linear and nonlinearoptical characteristics of composites containing metal na-noparticles with di�erent sizes and shapes, Optics Express18, 7488 (2010)

1739. Imamova, S., Dikovska, A., Nedyalkov, N., Atanasov, P.,Sawczak, M., Jendrzejewski, R., Sliwinski, G., Obara, M. La-ser nanostructuring of thin Au �lms for application in sur-


face enhanced Raman spectroscopy, J. Optoelectronics andAdvanced Materials 12 (3), pp. 500 (2010)

1738. Som, T; Karmakar, B Surface Plasmon Resonance and En-hanced Fluorescence Application of Single-step Synthesi-zed Elliptical Nano Gold-embedded Antimony Glass DichroicNanocomposites, Plasmonics 5 (2): 149-159 JUN 2010

1737. Veron, O; Blondeau, JP; Abdelkrim, N; Ntsoenzok, E, Lumi-nescence Study of Silver Nanoparticles Obtained by An-nealed Ionic Exchange Silicate Glasses, Plasmonics 5 (2):213-219 JUN 2010

1736. Lun Ma, Wei Chen Luminescence enhancement and quen-ching in ZnS:Mn by Au nanoparticles, J. Appl. Phys. 107,123513 (2010)

1735. L R. P. Kassab, D S. da Silva, C B. de Araujo In�uence of me-tallic nanoparticles on electric-dipole and magnetic-dipoletransitions of Eu3+ doped germanate glasses, J. Appl. Phys.107, 113506 (2010)

1734. Rostami, H; Abdi, Y; Arzi, E Fabrication of optical magneticmirrors using bent and mushroom-like carbon nanotubes,Carbon 48 (13): 3659-3666 NOV 2010

1733. Toma, H.E., Zamarion, V.M., Toma, S.H., Araki, K. The coordi-nation chemistry at gold nanoparticles J. Brazilian ChemicalSociety 21, 1158 (2010)

1732. Singh, J., Verma, S.S. Plasmonics with nanostructure mate-rials, Asian J. Chemistry 21 (10), pp. S081 2009

1731. Preclikova, J., Galar, P., Zidek, K., Trojanek, F., Maly, P. Mul-ticolour photochromic response of Ag-TiO2 nanocomposite- Role of light illumination, 2010 J. Nanoscience and Nano-technology 10 (4), pp. 2630-2634

1730. Chopra, N Multifunctional and multicomponent heterostruc-tured one-dimensional nanostructures: advances in growth,characterisation, and applications, Materials Technol. 25 (3-4): 212-230 SEP 2010

1729. Rivas, FC; Petranovskii, V; Ulloa, RZ Growth of copper nano-particles in erionite matrix, Rev. Mex. Fis. 56 (4): 328-333AUG 2010

1728. Zeev Zalevsky, Ibrahim Abdulhalim Plasmonics, IntegratedNanophotonic Devices, 2010, Pages 175-240

1727. Park, S.-J., Lee, S.-W., Jeong, S., Lee, J.-H., Park, H.-H., Choi,D.-G., Jeong, J.-H., Choi, J.-H. Nanosilver Colloids-Filled Pho-tonic Crystal Arrays for Photoluminescence Enhancement,(2010) Nanoscale Research Letters, 5 (10) pp. 1590-1595.

1726. Signori, AM; Santos, KD; Eising, R; Albuquerque, BL; Giaco-melli, FC; Domingos, JB Formation of Catalytic Silver Nano-particles Supported on Branched Polyethyleneimine Deri-vatives, Langmuir 26 (22): 17772-17779 NOV 16 2010

1725. Krasnykov, O.; Karabchevsky, A.; Shalabney, A; Auslender,M; Abdulhalim, I. Sensor with increased sensitivity based onenhanced optical transmission in the infrared, Optics Com-munications, 284 (5), p.1435, Mar 2011

1724. JW Jian CC Huang Colorimetric Detection of DNA by Modula-tion of Thrombin Activity on Gold Nanoparticles, Chemistry- A Europena J. 17, 2011, Pages: 2374–2380

1723. Park, SJ, Sohee-Jeong, Park, HH, Lee, SW, Jeon, S, Lee, JH,Choi, DG, Jeong, JH-Ho, Choi, JH, Optimized Film Processingof Nanosilver Colloids for Photoluminescence Enhancement,J. Nanosci. and Nanotechnol. 11, 422 (2011)

1722. Y Cheng, L Yin, S Lin, M Wiesner, E Bernhardt, J Liu To-xicity Reduction of Polymer-Stabilized Silver Nanoparticlesby Sunlight, J. Phys. Chem. C, 2011, 115 (11), pp 4425–4432

1721. Wachter, C; Michaelis, D Simulation of Metallic Nanoparti-cles in Layered Structures, Numerical Analysis and appliedMaths. Vols I-III 1281: 1626-1629 2010

1720. de Assumpcao, TAA; Kassab, LRP; Gomes, ASL; de Araujo, CB;Wetter, NU In�uence of the heat treatment on the nucleationof silver nanoparticles in Tm3+ doped PbO-GeO2 glasses,Appl. Phys. B-Lasers and optics 103 (1): 165-169 APR 2011

1719. Goesmann, H., Feldmann, C. Nanoparticulate functional ma-terials, 2010 Angewandte Chemie - International Edition 49(8), pp. 1362-1395

1718. Li, Y., Lu, W., Huang, Q., Li, C., Chen, W. Copper sul�de na-noparticles for photothermal ablation of tumor cells, 2010Nanomedicine 5 (8), pp. 1161-1171

1717. Nedyalkov, N.N., Imamova, S.E., Atanasov, P.A., Toshkova,R.A., Gardeva, E.G., Yossifova, L.S., Alexandrov, M.T., Obara,M. Interaction of gold nanoparticles with nanosecond laserpulses: Nanoparticle heating, 2011 Applied Surface Science257 (12), pp. 5456-5459


1715. Durante, N., Fortunelli, A., Broyer, M., Stener, M. Optical pro-perties of Au nanoclusters from TD-DFT calculations, 2011 J.Physical Chemistry C 115 (14), pp. 6277-6282

1714. Dominguez, CT; Maltez, RL; dos Reis, RMS; de Melo, LSA;de Araujo, CB; Gomes, ASL Dependence of random laseremission on silver nanoparticle density in PMMA �lms con-taining rhodamine 6G, J. Opt. Soc. Am. B-Optical Phys. 28(5): 1118-1123 MAY 2011

1713. Leong, ESP; Liu, YJ; Wang, B; Teng, JH E�ect of Surface Morp-hology on the Optical Properties in Metal-Dielectric-MetalThin Film Systems, ACS APPL. Materials & Interfaces 3 (4):1148-1153 APR 2011


1712. Yang, JH; Sardar, DK One-Pot Synthesis of Coral-ShapedGold Nanostructures for Surface-Enhanced Raman Scatte-ring, J. Nano Res. 14: 47-55 2011

1711. Vorobyev, AY; Guo, CL Optical and Wetting Properties ofFemtosecond Laser Nanostructured Materials, J. Nano Res.14: 57-67 2011

1710. Luty-Blocho, M., Fitzner, K., Hessel, V., Lob, P., Maskos, M.,Metzke, D., Paclawski, K., Wojnicki, M. Synthesis of gold na-noparticles in an interdigital micromixer using ascorbic acidand sodium borohydride as reducers, 2011 Chemical Engi-neering Journal 171 (1), pp. 279-290

1709. Giannini, V., Fernandez-Dominguez, A.I., Heck, S.C., Maier,S.A. Plasmonic nanoantennas: Fundamentals and their usein controlling the radiative properties of nanoemitters, 2011Chemical Reviews 111 (6), pp. 3888-3912

1708. Bhowmik, S., Holm, A., Ostroverkhova, O., Atre, S. Metallicnanostructures in a polymer matrix and substrate fabrica-tion and structural characterization, 2011 Applied Physics A:Materials Science and Processing 103 (4), pp. 1117-1123

1707. Savaloni H; Haydari-Nasab F; Malmir M Nano-structuralcharacteristics and optical properties of silver chiral nano-�ower sculptured thin �lms, Appl. Surf. Sci. 257, 9044-90552011

1706. Singh, SP; Karmakar, B Single-Step Synthesis and SurfacePlasmons of Bismuth-Coated Spherical to Hexagonal SilverNanoparticles in Dichroic Ag:Bismuth Glass Nanocomposi-tes, Plamonics 6 (3): 457-467 2011

1705. Torres-Torres, C; Castro-Chacon, JH; Castaneda, L; Rojo, RR;Torres-Martinez, R; Tamayo-Rivera, L; Khomenko, AV Ul-trafast nonlinear optical response of photoconductive ZnO�lms with �uorine nanoparticles, Optics Express 19 (17):16346-16355

1704. Albella, P; Saiz, JM; Gonzalez, F; Moreno, F Surface mo-nitoring based on light scattering by metal nanosensors,J. Quantitative Spectroscopy & Radiative Transfer 112 (13):2046-2058 SI 2011

1703. Dowgiallo, AM; Schwartzberg, AM; Knappenberger, KLStructure-Dependent Coherent Acoustic Vibrations of HollowGold Nanospheres, Nano Lett. 11 (8): 3258-3262 2011

1702. Vorobyev, AY; Guo, CL Re�ection of femtosecond laser lightin multipulse ablation of metals, J. Appl. Phys. 110 (4):10.1063/1.3620898 AUG 15 2011

1701. Torres-Torres, C; Tamayo-Rivera, L; Rangel-Rojo, R;Torres-Martinez, R; Silva-Pereyra, HG; Reyes-Esqueda, JA;Rodriguez-Fernandez, L; Crespo-Sosa, A; Cheang-Wong, JC;Oliver, A, Ultrafast optical phase modulation with metallic

nanoparticles in ion-implanted bilayer silica, Nanotechnol.22 (35): 10.1088/0957-4484/22/35/355710 SEP 2 2011

1700. J. S. Sekhon and S. S. Verma, Cu, CuO, and Cu2O nano-particle plasmons for enhanced scattering in solar cells,2011, Optics InfoBase Conference Papers, Optics for SolarEnergy, OSE 2011; Austin, TX; United States; 2 November2011 through 3 November 2011; Code 102734.

1699. Wahbeh, M., Alsawa�a, M., Misra, S., Truong, V.-V. Opti-cal properties of two-dimensional and three-dimensionalarrays of noble metal nanoparticles by the discrete dipoleapproximation method, Proceedings of SPIE - The Interna-tional Society for Optical Engineering 8007, art. no. 80071I2011

1698. Kassab, L.R.P., Freitas, L.F., Assumpcao, T.A.A., Da Silva, D.M.,De Araujo, C.B. Frequency upconversion properties of Ag:TeO2-ZnO nanocomposites codoped with Yb3+ and Tm3+ions, Applied Physics B: Lasers and Optics 104 (4), pp. 1029-1034 2011

1697. Sekhon, J.S., Verma, S.S. Plasmonics: The future wave ofcommunication, Current Science 101 (4), pp. 484-488 2011

1696. Xing, H., Bu, W., Zhang, S., Zheng, X., Li, M., Chen, F., He,Q., Zhou, L., Peng, W., Hua, Y., Shi, J. Multifunctional nano-probes for upconversion �uorescence, MR and CT trimodalimaging, (2012) Biomaterials, 33 (4) pp. 1079-1089.

1695. Sotiriou, G.A., Pratsinis, S.E. Engineering nanosilver as anantibacterial, biosensor and bioimaging material, 2011Cu-rrent Opinion in Chemical Engineering 1 (1), pp. 3-10

1694. Tesler, AB; Chuntonov, L; Karakouz, T; Bendikov, TA; Haran, G;Vaskevich, A; Rubinstein, I Tunable Localized Plasmon Trans-ducers Prepared by Thermal Dewetting of Percolated Eva-porated Gold Films, J. Phys. Chem. C, 115 (50):24642-246522011

1693. Angelescu, D.G., Vasilescu, M., Anastasescu, M., Baratoiu,R., Donescu, D., Teodorescu, V.S. Synthesis and associationof Ag(0) nanoparticles in aqueous Pluronic F127 triblock co-polymer solutions, 2012 Colloids and Surfaces A: Physico-chemical and Engineering Aspects 394 , pp. 57-66

1692. Yang, L., Liu, H., Ma, Y., Liu, J. Solvent-induced hot spotswitch on silver nanorod enhanced Raman spectroscopy,Analyst 137 (7) , pp. 1547-1549, 2012

1691. Angelidou, M., Pitris, C. Investigation of nanostructure scat-tering and absorption for combined optical diagnostic andtherapeutic applications, Progress in Biomedical Optics andImaging - Proceedings of SPIE 8231 , art. no. 823108, 2012

1690. Yang, Y.-Y., Csapo, E., Zhang, Y.-L., Sussmann, F., Stebbings,S.L., Duan, X.-M., Zhao, Z.-S., (...), Kling, M.F. Optimization


of the Field Enhancement and Spectral Bandwidth of Sin-gle and Coupled Bimetal Core-Shell Nanoparticles for Few-Cycle Laser Applications, Plasmonics 7 (1) , pp. 99-106, 2012

1689. Kubacka, A., Fernandez-Garcıa, M., Colon, G. Advanced na-noarchitectures for solar photocatalytic applications, (2012)Chemical Reviews, 112 (3) pp. 1555-1614.

1688. Torres-Torres, C., Tamayo-Rivera, L., Rangel-Rojo, R., Torres-Martinez, R., Silva-Pereyra, H.G., Reyes-Esqueda, J.A.,Rodriguez-Fernandez, L., Crespo-Sosa, A., Cheang-Wong,J.C., Oliver, A. Ultrafast optical phase modulation with meta-llic nanoparticles in ion-implanted bilayer silica, (2011) Na-notechnology, 22 (35), art. no. 355710

1687. Morarescu, R., Shen, H., Vallee, R.A.L., Maes, B., Kolaric, B.,Damman, P. Exploiting the localized surface plasmon modesin gold triangular nanoparticles for sensing applications,(2012) J. Materials Chemistry, 22 (23) pp. 11537-11542.

1686. DeSantis, CJ; Skrabalak, SE Size-Controlled Synthesis ofAu/Pd Octopods with High Refractive Index Sensitivity,LANGMUIR, 28 (24):9055-9062; 10.1021/la3002509 JUN 192012

1685. Campos-Lopez, J.P., Torres-Torres, C., Trejo-Valdez, M.,Torres-Torres, D., Urriolagoitia-Sosa, G., Hernandez-Gomez,L.H., Urriolagoitia-Calderon, G. Optical absorptive responseof platinum doped TiO 2 transparent thin �lms with Au na-noparticles, 2012 Materials Science in Semiconductor Pro-cessing 15 (4) , pp. 421-427

1684. Liang, A., Liu, Q., Wen, G., Jiang, Z. The surface-plasmon-resonance e�ect of nanogold/silver and its analytical ap-plications, 2012, TrAC - Trends in Analytical Chemistry 37 ,pp. 32-47.

1683. Miskovsky, N.M., Cutler, P.H., Mayer, A., Weiss, B.L., Willis, B.,Sullivan, T.E., Lerner, P.B. Nanoscale devices for recti�cationof high frequency radiation from the infrared through thevisible: A new approach, 2012, J. Nanotechnology , art. no.512379

1682. K. Kolwas, A. Derkachova, Damping rates of surface plas-mons for particles of size from nano- to micrometers; reduc-tion of the nonradiative decay, J. Quantitative Spectroscopyand Radiative Transfer 114 , pp. 45-55 (2013)

1681. Verma, S.S., Sekhon, J.S. In�uence of aspect ratio and su-rrounding medium on localized surface plasmon resonance(LSPR) of gold nanorod, 2012, J. Optics (India) 41 (2) , pp. 89-93

1680. Xuan, X., Xu, S., Liu, Y., Li, H., Xu, W., Lombardi, J.R. A long-range surface plasmon resonance/probe/silver nanoparti-cle (LRSPR-P-NP) nanoantenna con�guration for surface-enhanced raman scattering, 2012, J. Physical Chemistry Let-ters 3 (19) , pp. 2773-2778

1679. Ramadan, S., Guo, L., Li, Y., Yan, B., Lu, W. —textitHollowcopper sul�de nanoparticle-mediated transdermal drug de-livery, (2012) Small, 8 (20) pp. 3143-3150.

1678. Rashidian, M; Dorranian, D E�ect of concentration on theplasmonic absorption and optical nonlinearity of gold na-noparticles, : Optical Engineering 51, 089001 (2012)

1677. Perez-Mirabet, L., Surinyach, S., Ros, J., Suades, J., Yanez, R.Gold and silver nanoparticles surface functionalized withrhenium carbonyl complexes, 2012, Materials Chemistryand Physics 137 (2) , pp. 439-447


1675. Sotiriou, G.A. Biomedical applications of multifunctionalplasmonic nanoparticles, 2013, Wiley Interdisciplinary Re-views: Nanomedicine and Nanobiotechnology 5 (1) , pp. 19-30

1674. Lee, K.F., Hayashi, T., Takaya, Y. Structuralization of metalnanoparticles by photoinduced aggregation, 2010, 10th In-ternational Symposium on Measurement and Quality Con-trol 2010, ISMQC 2010 , pp. 366-369

1673. Gao, X., Chen, G., Ning, L. Plasmonic characteristics ofnanorod-based metallic nanostructures, 2013, Optics andLaser Technology 48 , pp. 394-400

1672. David, C., Connolly, J.P., Chaverri Ramos, C., Garcia De Aba-jo, F.J., Sanchez Plaza, G. Theory of random nanoparticlelayers in photovoltaic devices applied to self-aggregatedmetal samples, 2013, Solar Energy Materials and Solar Cells109 , pp. 294-299

1671. A. Benami, A. Lopez-Suarez, L. Rodriguez-Fernandez, A.Crespo-Sosa, J. C. Cheang-Wong, J. A. Reyes-Esqueda, A.Oliver Enhancement and quenching of photoluminescen-ce from silicon quantum dots by silver nanoparticles ina totally integrated con�guration, AIP Advances 2, 012193(2012); http://dx.doi.org/10.1063/1.3701696

1670. N. Goubet, C. Yan, D. Polli, H. Portales, I. Arfaoui, G. Ceru-llo, and M.-P. Pileni. Modulating physical properties of iso-lated and self-assembled nanocrystals through change innanocrystallinity, Nano Letters pp. 504-508 (2013)

1669. K. Shadak Alee, R. Kuladeep, D. Narayana Rao In-situ inves-tigation of the formation of silver nanoparticles in polyvinylalcohol through micro-Raman spectroscopy, Optics Com-munications 293 , pp. 69-74 (2013)

1668. A. Y. Vorobyev and C. Guo Direct femtosecond lasersurface nano/microstructuring and its applications, Laserand Photonics Reviews 7 (3) , pp. 385-407, 2013. DOI:10.1002/lpor.201200017


1667. M. Angelidou and C. Pitris Design of a new nanostructure fortheranostic applications, In Bioinformatics Bioengineering(BIBE), 2012 IEEE 12th International Conference on, pages240 –244, nov. 2012.

1666. F. Abdi, A. Siabi-Gerjan, and H. Savaloni On the discretedipole approximation investigation of the extinction spectraof ag/glass nano-�ower thin �lm with threefold symmetry,Journal of Theoretical and Applied Physics 6(1), 2012.

1665. de Freitas, J. N., Nogueira, A. F. (2013). Incorporation of Inor-ganic Nanoparticles into Bulk Heterojunction Organic SolarCells. Nanoenergy: Nanotechnology Applied for Energy Pro-duction, 1.

1664. Carvalho, B.G., Fagundes, J., Martin, A.A., Raniero, L., Favero,P.P. DNA nanosensor surface gra�ing and salt dependence,(2013) Progress in Biomedical Optics and Imaging - Procee-dings of SPIE, 8594, art. no. 85940H

1663. Marın, J. G. (2013). FROM SILVER NANOSTRUCTURES TOGOLD NANOSTARS: SYNTHESIS AND CHARACTERIZATION OFTUNABLE PLASMONIC MATERIALS.

1662. Bratkovsky, A. M. (2013). Plasmonic Devices for Fast Optoe-lectronics and Enhanced Raman Sensors. Nanoscale Appli-cations for Information and Energy Systems, 1-40.

1661. Qiu, C., Zhou, H., Cao, B., Sun, L., Yu, T. Raman spectroscopyof morphology-controlled deposition of Au on graphene,2013, Carbon 59 , pp. 487-494

1660. Leong, E.S.P., Liu, Y.J., Chum, C.C., Teng, J.H. Optical MagneticResonances in Subwavelength Ag-MgF2-Ag Grating Structu-res, 2013, Plasmonics 8 (2) , pp. 1221-1226

1659. Liu, L., Jiang, W., Yang, X.-W., Chen, B.-H., Wu, S.-X., Li, F.-S.Facile fabrication of novel magnetic and �uorescent Fe3O4-CdSe nanocomposites, (2013) Wuli Huaxue Xuebao/ ActaPhysico - Chimica Sinica, 29 (5) pp. 1088-1096.

1658. Zou, XX; Tao, ZM; Asefa, T Semiconductor and PlasmonicPhotocatalysis for Selective Organic Transformations, CU-RRENT ORGANIC CHEMISTRY, 17 (12):1274-1287; JUN 2013

1657. Savaloni, H., Babaei, R. Surface enhanced Raman spectros-copy and structural characterization of Ag/Cu chiral nano-�ower sculptured thin �lms, 2013, Applied Surface Science280 , pp. 439-445

1656. De Lasson, J.R., Mork, J., Kristensen, P.T. Three-dimensionalintegral equation approach to light scattering, extinctioncross sections, local density of states, and quasi-normalmodes, 2013, Journal of the Optical Society of America B:Optical Physics 30 (7) , pp. 1996-2007

1655. Yang, X.-C., Hou, J.-W., Liu, Y., Cui, M.-M., Lu, W. OPAAtemplate-directed synthesis and optical properties of me-tal nanocrystals, 2013, Nanoscale Research Letters 8 (1) ,pp. 1-8


1653. Rao, V.G., Banerjee, C., Mandal, S., Ghosh, S., Sarkar, N.Zwitterionic micelles as a so� template for the extremelyrapid synthesis of small hollow gold nanocontainers, 2013,RSC Advances 3 (35) , pp. 14963-14969

1652. Gungor, K., Unal, E., Demir, H.V. Nanoplasmonic surfacesenabling strong surfacenormal electric �eld enhancement,2013, Optics Express 21 (20) , pp. 23097-23106

1651. Sturm, S., Rozman, K.Z., Markoli, B., Antonakakis, N.S., Sa-rantopoulou, E., Kollia, Z., Cefalas, A.C., Kobe, S. Pulsed-laser fabrication of gas-�lled hollow Co-Pt nanospheres,2013, Acta Materialia 61 (20) , pp. 7924-7930

1650. Coughlin, AJ; West, JL Gold nanoshells for imaging andphotothermal ablation of cancer, Editor(s): Webster TJ, NA-NOMEDICINE: TECHNOLOGIES AND APPLICATIONS, (49):326-355; 2012 Book Series: Woodhead Publishing Series in Bio-materials

1649. Liu, A., Ren, Q., Zhao, M., Xu, T., Yuan, M., Zhao, T., Tang,W. Photovoltaic performance enhancement of CdS quantumdot-sensitized TiO 2 photoanodes with plasmonic gold na-noparticles, 2014, Journal of Alloys and Compounds 589 ,pp. 218-225

1648. Campardelli, R., Della Porta, G., Gomez, L., Irusta, S., Rever-chon, E., Santamaria, J., Au-PLA nanocomposites for pho-tothermally controlled drug delivery, 2014, Journal of Ma-terials Chemistry B 2 (4) , pp. 409-417


1646. Goel, S., Chen, F., Cai, W. Synthesis and biomedical applica-tions of copper sul�de nanoparticles: From sensors to thera-nostics, Small, Volume 10, Issue 4, 26 February 2014, Pages631-645

1645. Yang, LK; Li, ZP; Wang, PJ; Zhang, LS; Fang, Y Optical Proper-ties of Noncontinuous Gold Shell Engineered on Silica Me-sosphere, PLASMONICS, 9 (1):121-127; 10.1007/s11468-013-9604-0 FEB 2014


1644. Faucheaux, J.A.a, Fu, J.ad, Jain, P.K. Uni�ed theoretical fra-mework for realizing diverse regimes of strong couplingbetween plasmons and electronic transitions, J Phys ChemC 118 (5), 2014, 2710-2717

1643. Alee, K.S. , Rao, D.N. Time-dependent micro-Raman scatte-ring studies of polyvinyl alcohol and silver nitrate thin �lms,Pramana - Journal of Physics, Volume 82, Issue 2, February2014, Pages 425-431

1642. Kawada, S., Saeki, D., Matsuyama, H. Development of ul-tra�ltration membrane by stacking of silver nanoparticlesstabilized with oppositely charged polyelectrolytes, Colloidsand Surfaces A: Physicochemical and Engineering Aspects451, Issue 1, 1 June 2014, Pages 33-37

1641. Chopra, N. Roadmap to nanoscale heterostructures: Fromsingle-component nanowires axially heterostructured , enNanowires: Properties, Synthesis and Applications 2011, Pa-ges 171-202

1640. Faucheaux, J.A., Stanton, A.L.D., Jain, P.K Plasmon resonan-ces of semiconductor nanocrystals: Physical principles andnew opportunities, Journal of Physical Chemistry Letters,Volume 5, Issue 6, 20 March 2014, Pages 976-985

1639. Ma, W. , Chen, F. Experimental and theoretical studies on theinteraction between isonicotinic acid molecules and silvernanoclusters, Spectroscopy Letters 47, Issue 10, 26 Novem-ber 2014, Pages 754-760

1638. Rajesh, D; Sunandana, CS Structural and Optical Evaluationof Pristine and Partially Iodized Ag Thin Films, Editor(s): GiriPK; Goswami DK; Perumal A, ADVANCED NANOMATERIALSAND NANOTECHNOLOGY, 143 271-278;10.1007/978-3-642-34216-5-28 2013

1637. Gao, X., Esteves, R.J., Luong, T.T.H., Jaini, R., Arachchige,I.U. Oxidation-induced self-assembly of Ag nanoshells intotransparent and opaque Ag hydrogels and aerogels, Jour-nal of the American Chemical Society 136, June 2014, Pages7993-8002

1636. Alisafaee, H., Fiddy, M.A. Dedicated nanoantenna elementsfor vertical nanorods in plasmonic photovoltaics, Procee-dings of SPIE - The International Society for Optical Engi-neering Volume 8981, 2014, Article number 89811H Physics,Simulation, and Photonic Engineering of Photovoltaic Devi-ces III; San Francisco, CA; United States; 3 February 2014through 6 February 2014; Code 105326

1635. Kasture, S., Ravishankar, A.P., Yallapragada, V.J., Patil, R., Va-lappil, N.V., Mulay, G., Achanta, V.G. Plasmonic quasicrys-tals with broadband transmission enhancement, Scienti�cReports 4, 11 June 2014, Article number 5257

1634. Yenchalwar, S.G., Reddydevarapalli, R., Deshmukh, A.B.,Shelke, M.V. Plasmon-enhanced photocurrent generationfrom click-chemically modi�ed graphene, Chemistry - A Eu-ropean Journal 20, Issue 24, 10 June 2014, Pages 7402-7409

1633. Kannan, P., Los, M., Los, J.M., Niedziolka-Jonsson, J. T7 bac-teriophage induced changes of gold nanoparticle morpho-logy: Biopolymer capped gold nanoparticles as versatileprobes for sensitive plasmonic biosensors, Analyst 139, Is-sue 14, 21 July 2014, Pages 3563-3571

1632. Tira, C., Tira, D., Simon, T., Astilean, S. Finite-Di�erenceTime-Domain (FDTD) design of gold nanoparticle chainswith speci�c surface plasmon resonance , Journal of Mole-cular Structure Volume 1072, Issue 1, 25 August 2014, Pages137-143

1631. Forcherio, G.T., Blake, P., Dejarnette, D., Roper, D.K. Nanoringstructure, spacing, and local dielectric sensitivity for plas-monic resonances in Fano resonant square lattices, OpticsExpress Volume 22, Issue 15, 41848, Pages 17791-17803



1628. Xu, J., Chen, Z., Zapien, J.A., Lee, C.-S., Zhang, W. Surfa-ce engineering of ZnO nanostructures for semiconductor-sensitized solar cells, Advanced Materials Volume 26, Issue31, 20 August 2014, Pages 5337-5367

1627. Reza Dousti, M Plasmonic e�ect of silver nanoparticleson the upconversion emissions of Sm3+-doped sodium-borosilicate glass, Measurement: Journal of the Internatio-nal Measurement Confederation Volume 56, October 2014,Pages 117-120

1626. Marocico, C.A., Zhang, X., Bradley, A.L. Spectral overlap de-pendence of enhanced energy transfer near small Au nano-particles, International Conference on Transparent OpticalNetworks 2014, Article number 6876459 16th InternationalConference on Transparent Optical Networks, ICTON 2014;Graz; Austria; 6 July 2014 through 10 July 2014; CategorynumberCFP14485-USB; Code 107209

1625. Zalevsky, Z; Abdulhalim, I Plasmonics, INTEGRATED NANOP-HOTONIC DEVICES, 2ND EDITION, 179-245; 10.1016/B978-0-323-22862-6.00006-2 2014

1624. Alisafaee, H., Fiddy, M.A. Nanoantennas for nanowire pho-tovoltaics, Applied Physics Letters Volume 105, Issue 11, 15September 2014, Article number 113107


1623. Almendral Parra, M.J., Paradinas, S.S. Spectroscopic Techni-ques Basedon the Use of Gold Nanoparticles, Comprehen-sive Analytical Chemistry Volume 66, 2014, Pages 477-527

1622. Chen, LX; Wang, YQ; Fu, XL; Chen, L Colorimetric Nano-probes, Book Author(s): Chen, L (Chen, L); Wang, Y (Wang,Y); Fu, X (Fu, X); Chen, L (Chen, L) NOVEL OPTICAL NANO-PROBES FOR CHEMICAL AND BIOLOGICAL ANALYSIS, 9-48;10.1007/978-3-662-43624-0-2 2014

1621. Mashayekh, M; Dorranian, D Size-dependent nonlinear op-tical properties and thermal lens in silver nanoparticles, OP-TIK, 125 (19):5612-5617; 10.1016/j.ijleo.2014.07.066 2014

1620. Caldwell, A.H., Ha, D.-H., Ding, X., Robinson, R.D. Analyticalmodeling of localized surface plasmon resonance in hete-rostructure copper sul�de nanocrystals, Journal of Chemi-cal Physics Volume 141, Issue 16, 28 October 2014, Articlenumber 164125

1619. Wunscher, S., Abbel, R., Perelaer, J., Schubert, U.S. Progressof alternative sintering approaches of inkjet-printed metalinks and their application for manufacturing of �exible elec-tronic devices, Journal of Materials Chemistry C Volume 2,Issue 48, 28 December 2014, Pages 10232-10261

1618. Amiri, O., Salavati-Niasari, M., Ra�ei, A., Farangi, M. 147 %Improved e�ciency of dye synthesized solar cells by usingCdS QDs, Au nanorods and Au nanoparticles , RSC AdvancesVolume 4, Issue 107, 2014, Pages 62356-62361

1617. Chadha, T.S., Park, J., An, W.J., Biswas, P. Gold nanocagecoupled single crystal TiO2 nanostructures for near-infraredwater photolysis, Journal of Nanoparticle Research Volume16, Issue 11, 2014, 9p

1616. Moiseev, S.G., Ostatochnikov, V.A., Sementsov, D.I. In�uen-ce of size e�ects on the optical characteristics of a one-dimensional photonic crystal with a nanocomposite defect,JETP Letters Volume 100, Issue 6, 4 December 2014, Pages371-375

1615. Liu, L., Dao, T.D., Kodiyath, R., Kang, Q., Abe, H., Nagao, T.,Ye, J. Plasmonic janus-composite photocatalyst comprisingAu and C-TiO2 for enhanced aerobic oxidation over a broadvisible-light range, Advanced Functional Materials Volume24, Issue 48, 23 December 2014, Pages 7754-7762

1614. Moutet, P., Sangeetha, N.M., Ressier, L., Vilar-Vidal, N., Co-mesaOa-Hermo, M., Ravaine, S., VallEe, R.A.L., Gabudean,A.M., Astilean, S., Farcau, C Surface-enhanced spectros-copy on plasmonic oligomers assembled by AFM nanoxe-rography, Nanoscale Volume 7, Issue 5, 7 February 2015,Pages 2009-2022

1613. Farooqi, Z.H., Khan, S.R., Begum, R., Kanwal, F., Sharif, A.,Ahmed, E., Majeed, S., Ijaz, K., Ijaz, A. E�ect of acrylic acidfeed contents of microgels on catalytic activity of silver na-noparticles fabricated hybrid microgels, Turkish Journal ofChemistry Volume 39, Issue 1, 2015, Pages 96-107

1612. Gromov, DG; Savitskiy, AI; Pavlova, LM; Borgardt, NI; Grishi-na, YS; Dubkov, SV; Trifonov, AY Formation of gold and silvercluster arrays using vacuum-thermal evaporation on a non-heated substrate, 2014 Source of the DocumentProceedingsof SPIE - The International Society for Optical Engineering9440, 94400E

1611. Goubet, N., Tempra, I., Yang, J., (...), Cerullo, G., Pileni, M.P. Si-ze and nanocrystallinity controlled gold nanocrystals: Synt-hesis, electronic and mechanical properties, 2015 Nanosca-le 7 (7), pp. 3237-3246

1610. Vorobyev, A.Y., Guo, C. Multifunctional surfaces produced byfemtosecond laser pulses, 2015 Journal of Applied Physics117 (3), 033103

1609. Bouhadoun, S., Guillard, C., Dapozze, F., (...), Boucle, J.,Herlin-Boime, N. One step synthesis of N-doped and Au-loaded TiO2 nanoparticles by laser pyrolysis: Applicationin photocatalysis, 2015 Applied Catalysis B: Environmental174-175, pp. 367-375

1608. Pileni, M.P. Nano-supracrystallinity, 2015 EPL 109 (5), 58001

1607. Gromov, D.G., Pavlova, L.M., Savitsky, A.I., Trifonov, A.Y. Nu-cleation and growth of Ag nanoparticles on amorphous car-bon surface from vapor phase formed by vacuum evapo-ration, 2014 Applied Physics A: Materials Science and Pro-cessing 118 (4), pp. 1297-1303

1606. Messina, E., Donato, M.G., Zimbone, M., (...), Gucciardi, P.G.,Marago, O.M. Optical trapping of silver nanoplatelets, 2015Optics Express 23 (7), pp. 8720-8730

1605. Zhou, J., Wang, Z., Li, Q., (...), Wei, Y., You, J. Hybridi-zed doxorubicin-Au nanospheres exhibit enhanced near-infrared surface plasmon absorption for photothermal the-rapy applications, 2015 Nanoscale 7 (13), pp. 5869-5883

1604. Doosthosseini, F; Behjat, A; Hashemizadeh, S; Torabi, N Ap-plication of silver nanoparticles as an interfacial layer incadmium sul�de quantum dot sensitized solar cells, JOUR-NAL OF NANOPHOTONICS, 9 10.1117/1.JNP.9.093092 FEB 172015

1603. Abdolghaderi, S., Sha�ekhani, A. E�ect of deposition timeon structure of silver nanoparticles embedded in diamond-like carbon matrix made by RF-PECVD method, 2015 IranianJournal of Physics Research 14 (4), pp. 225-229


1602. Yu, H., Jiang, S., Wu, D. E�cient surface plasmon ampli�-cation in gain-assisted silver nanotubes and associated di-mers, 2015 Journal of Applied Physics 117 (15), 153101

1601. De Freitas, J.N., Nogueira, A.F. Incorporation of inorganicnanoparticles into bulk heterojunction organic solar cells,2012 (Book Chapter) Nanoenergy: Nanotechnology Appliedfor Energy Productionpp. 1-47

1600. Gong, X., Tang, J., Ji, Y., Wu, B., Wu, H., Liu, A. Adjustableplasmonic optical properties of hollow gold nanospheresmonolayers and LSPR-dependent surface-enhanced Ramanscattering of hollow gold nanosphere/graphene oxide hy-brids, 2015 RSC Advances

1599. Chen, J., Kang, Z., Lu, H., (...), Chen, N.-K., Ho, H.-P. Pho-tochemically synthesized silver nanostructures on tapered�ber as plasmonic tweezers for surface enhanced Ramanscattering applications, 2015 Vacuum 118, pp. 171-176

1598. Strong, L.E., West, J.L. Optically modulated cancer thera-peutic delivery: Past, present and future, 2015 TherapeuticDelivery 6 (5), pp. 147-160

1597. Miskovsky, N.M., Cutler, P.H., Lerner, P.B., (...), Weisel, G.J.,Sullivan, T.E. Nanoscale rectennas with sharp tips for ab-sorption and recti�cation of optical radiation (Book Chapter)2014 Rectenna Solar Cellspp. 135-161

1596. Ye, L., Guo, J., Jiang, L., Dai, X. Enhanced and controllablenonlinear e�ects in composite with aligned gold spheroidarrays, 2015 Journal of Nonlinear Optical Physics and Ma-terials 24 (1), 1550013

1595. Ji, A., Sharma, R., Pathak, H., Pathak, N.K., Sharma, R.P. Nu-merical simulation of plasmonic light trapping in thin-�lm Sisolar cells: Surface coverage e�ect, 2015 Journal of PhysicsD: Applied Physics 48 (27), 275101

1594. Shulyatev, A.S., Machnev, A.A., Gromov, D.G., (...), Mitrokhin,V.P., Mel?nikov, I.V. Anomalous transmission of disorderedarrays of silver nanoclusters in the near- and mid-IR re-gions, 2015 Technical Physics Letters 41 (5), pp. 425-428

1593. Shrivas, K., Shankar, R., Dewangan, K. Gold nanoparticlesas a localized surface plasmon resonance based chemicalsensor for on-site colorimetric detection of arsenic in watersamples, 2015 Sensors and Actuators, B: Chemical 220, pp.1376-1383

1592. Fateixa, S., Nogueira, H.I.S., Trindade, T. Hybrid nanostruc-tures for SERS: Materials development and chemical detec-tion, Physical Chemistry Chemical Physics Volume 17, Issue33, 20 April 2015, Pages 21046-21071

1591. Bhatia, P., Consiglio, J., Diniz, J., (...), Ritz-Schubert, S., Terrill,R.H. Onset of intense surface enhanced raman scattering

and aggregation in the Au at Ag system, 2015 Journal ofSpectroscopy 2015, 676748

1590. Lu, P; Li, J; Wang, D; Wan, LJ Si@Cu@Au AFM tips for tip-enhanced Raman spectrum, SCIENCE CHINA-CHEMISTRY, 58(9):1494-1500; 10.1007/s11426-015-5353-6 SEP 2015

1589. Li, N., Tian, X., Zhang, W., (...), Li, G., Zhang, Z. Double Fanoresonances in a planar pseudo-dolmen structure, 2015 Sen-sors and Actuators, A: Physical 234, pp. 346-350

1588. Ambaye, C.S., Zhang, G. The enhancement of local electric�eld and far�eld optical response of nanometallic shells,2015 Optik 126 (19), pp. 1894-1897

1587. Vlcek, J., Otipka, P., Lesnak, M., Vavra, I. E�ective mediumapproximation of anisotropic materials with radiative co-rrection, 2015 Proceedings of SPIE - The International So-ciety for Optical Engineering 9502, 950217

1586. Zimbone, M., Messina, E., Compagnini, G., Fragala, M.E., Cal-cagno, L. Resonant depolarized dynamic light scattering ofsilver nanoplatelets, 2015 Journal of Nanoparticle Research17 (10), 402

1585. Ren, QQ; Bai, LY; Zhang, XS; Ma, ZY; Liu, B; Zhao, YD;Cao, YC Preparation, Modi�cation, and Application of Ho-llow Gold Nanospheres, JOURNAL OF NANOMATERIALS,10.1155/2015/534070 2015

1584. Ghambari, T., Dorranian, D. Measurement of third-ordernonlinear susceptibility of Au nanoparticles doped PVA �lm,2015 Optics and Spectroscopy (English translation of Optikai Spektroskopiya) 119 (5), pp. 838-848

1583. Marocico, C.A., Zhang, X., Bradley, A.L. A theoretical inves-tigation of the in�uence of gold nanosphere size on the de-cay and energy transfer rates and e�ciencies of quantumemitters, 2016 SJournal of Chemical Physics 144 (2), 024108

1582. Ustarroz, J., Hubin, A., Terryn, H. Supported nanoparticlesynthesis by electrochemical deposition, 2015, Handbookof Nanoparticles pp. 603-631 180

1581. Shrivas, K., Sahu, S., Ghorai, A., Shankar, R. Goldnanoparticles-based colorimetric determination of cationicsurfactants in environmental water samples via both elec-trostatic and hydrophobic interactions, 2016 MicrochimicaActa 183 (2), pp. 827-836

1580. Shrivas, K., Sahu, S., Patra, G.K., Jaiswal, N.K., Shankar, R. Lo-calized surface plasmon resonance of silver nanoparticlesfor sensitive colorimetric detection of chromium in surfacewater, industrial waste water and vegetable samples, 2016Analytical Methods 8 (9), pp. 2088-2096


1579. Savariraj, A.D., Kim, H.-J., Viswanathan, K.K., Vijaykumar,M., Prabakar, K. Growth mechanisms and origin of localizedsurface plasmon resonance coupled exciton e�ects in Cu2-xS thin �lms, 2016 RSC Advances 6 (23), pp. 19034-19040

1578. Eugenio, M., Muller, N., Frases, S., (...), De Souza, W.,SantAnna, C. Yeast-derived biosynthesis of silver/silverchloride nanoparticles and their antiproliferative activityagainst bacteria, 2016 RSC Advances 6 (12) 9893-9904

1577. Amiri, O; Salavati-Niasari, M; Bagheri, S; Youse�, AT En-hanced DSSCs e�ciency via Cooperate co-absorbance (CdSQDs) and plasmonic core-shell nanoparticle (Ag at PVP),SCIENTIFIC REPORTS, 6 10.1038/srep25227 MAY 4 2016

1576. King, S.R., Shimmon, S., Gentle, A.R., (...), Dowd, A., McDo-nagh, A.M. Remarkable thermal stability of gold nanoparti-cles functionalised with ruthenium phthalocyanine comple-xes, 2016 Nanotechnology 27 (21), 215702

1575. Li, WQ; Xiao, XH; Dai, ZG; Wu, W; Cheng, L; Mei, F; Zhang,XG; Jiang, CZ Fabrication of highly homogeneous surface-enhanced Raman scattering substrates using Ag ion implan-tation, 2016 Journal of Physics Condensed Matter 28 (25),254003

1574. Carrillo-Torres, R.C., Garcia-Soto, M.J., Morales-Chavez, S.D.,(...), Barboza-Flores, M., Alvarez-Ramos, M.E. Hollow Au-Agbimetallic nanoparticles with high photothermal stability,2016 RSC Advances 6 (47), 41304.

1573. Derkachova, A; Kolwas, K; Demchenko, I Dielectric Functionfor Gold in Plasmonics Applications: Size Dependence ofPlasmon Resonance Frequencies and Damping Rates forNanospheres, PLASMONICS, 11 (3):941-951; 10.1007/s11468-015-0128-7 JUN 2016

1572. Fragal, V.H., Cellet, T.S.P., Pereira, G.M., (...), Rubira, A.F., Sil-va, R. Covalently-layers of PVA and PAA and in situ formedAg nanoparticles as versatile antimicrobial surfaces, 2016International Journal of Biological Macromolecules 91, pp.329-337

1571. Baseggio, O., De Vetta, M., Fronzoni, G., (...), Fortunelli, A.,Calzolari, A. Photoabsorption of Icosahedral Noble MetalClusters: An E�cient TDDFT Approach to Large-Scale Sys-tems, 2016 Journal of Physical Chemistry C 120 (23), pp.12773-12782

1570. Ashkarran, AA; Daemi, S Tuning the Plasmon of MetallicNanostructures: From Silver Nanocubes Toward Gold Na-noboxes, PLASMONICS, 11 (4):1011-1017; 10.1007/s11468-015-0136-7 AUG 2016

1569. Wu, S; Deng, Z; Liu, JQ; Zhang, KY; Yu, LZ; Zhu, YY Multi-ple out-of-plane plasmonic resonances in thick metallic rod

with a cavity, JOURNAL OF PHYSICS D-APPLIED PHYSICS, 49(25):10.1088/0022-3727/49/25/25LT01 JUN 29 2016

1568. Kassab, L.R.P., Silva, D.M., Garcia, J.A.M., da Silva, D.S., deAraujo, C.B. Silver nanoparticles enhanced photolumines-cence of Nd3+ doped germanate glasses at 1064 nm, 2016Optical Materials 60, pp. 25-29

1567. Carletti, L., Locatelli, A., Neshev, D., De Angelis, C. Shapingthe Radiation Pattern of Second-Harmonic Generation fromAlGaAs Dielectric Nanoantennas, 2016 ACS Photonics 3 (8),pp. 1500-1507

1566. Takagai, Y., Miura, R., Endo, A., Hinze, W.L. One-pot synt-hesis with: In situ preconcentration of spherical mono-dispersed gold nanoparticles using thermoresponsive 3-(alkyldimethylammonio)-propyl sulfate zwitterionic surfac-tants, 2016 Chemical Communications 52 (65), pp. 10000-10003

1565. Fiorenza, R., Bellardita, M., DUrso, L., (...), Palmisano, L., Sci-re, S. Au/TiO2-CeO2 catalysts for photocatalytic water split-ting and VOCs oxidation reactions, 2016 Catalysts 6 (8), 121

1564. Supriyono, Krisnandi, Y.K., Gunlazuardi, J. Electrodepositionof gold nanoparticles on mesoporous TiO2 photoelectrodeto enhance visible region photocurrent, 2016 AIP Conferen-ce Proceedings 1729, 020049

1563. Schopf, C; Noonan, E; Quinn, AJ; Iacopino, D Self-Assemblyof Gold Nanocrystals into Discrete Coupled Plasmonic Struc-tures, CRYSTALS, 6 (9):10.3390/cryst6090117 SEP 2016

1562. Aliabadi, M. One-step synthesis of highly e�cient TiO2-CdS-Ag nanocomposite for remove organic pollution, 2017Separation and Puri�cation Technology 174, pp. 145-149

1561. David, C., Christensen, J., Mortensen, N.A. Spatial disper-sion in two-dimensional plasmonic crystals: Large blueshi�spromoted by di�raction anomalies, 2016 Physical Review B94 (16), 165410

1560. Schopf, C., Noonan, E., Quinn, A.J., Iacopino, D. Self-assembly of gold nanocrystals into discrete coupled plas-monic structures, 2016 Crystals 6 (9), 117

1559. Shrivas, K., Maji, P., Dewangan, K. Onsite-detection of ba-rium and nickel from river, pond and tap water samplesusing gold nanoparticles as a chemical sensor, 2017 Spec-trochimica Acta - Part A: Molecular and Biomolecular Spec-troscopy 173, pp. 630-636

1558. Dousti, MR; Amjad, RJ Plasmon Assisted Luminescence inRare Earth Doped Glasses, REVIEWS IN PLASMONICS 2015,2015 339-386; Book Series: Reviews in Plasmonics


1557. Grasseschi, D., Toma, H.E. The SERS e�ect in coordinationchemistry, 2017 Coordination Chemistry Reviews 333, pp.108-131

1556. Aziz, S.M., Sahar, M.R., Ghoshal, S.K. A basic insight on struc-tural modi�cation of manganese oxide nanoparticles inclu-ded borotellurite glass with europium impurities, 2017 Jour-nal of Non-Crystalline Solids 456, pp. 33-39

1555. Fu, J., Liang, H., Zhang, J., (...), Zhang, Z., Lin, X. Enhancedoptical absorbance and fabrication of periodic arrays onnickel surface using nanosecond laser, 2017 Optics Com-munications 389, pp. 170-175

1554. Dayem, A.A., Hossain, M.K., Lee, S.B., (...), Choi, H.Y., Cho,S.-G. The role of reactive oxygen species (ROS) in the biolo-gical activities of metallic nanoparticles, 2017 InternationalJournal of Molecular Sciences 18 (1), 120

1553. Farrell, M.E., Strobbia, P., Pellegrino, P.M., Cullum, B. Surfaceregeneration and signal increase in surface-enhanced Ra-man scattering substrates, 2017 Applied Optics 56 (3), pp.B198-B213

1552. Mahsa, F. Optical properties of manganese chiral single ringby glancing angle deposition technique, 2017 InternationalJournal of Nanoelectronics and Materials 10 (1), pp. 29-38

1551. Heinz, H., Pramanik, C., Heinz, O., (...), Moya, S., Ziolo, R.F.Nanoparticle decoration with surfactants: Molecular inter-actions, assembly, and applications, 2017 Surface ScienceReports 72(1), pp. 1-58

1550. Jahangiri, P., Zarrabi, F.B., Naser- Moghadasi, M., Saee Are-zoomand, A., Heydari, S. Hollow plasmonic high Q-factorabsorber for bio-sensing in mid-infrared application, 2017Optics Communications 394, pp. 80-85

1549. Hong, JH; Jin, CH; Yuan, J; Zhang, Z Atomic Defects in Two-Dimensional Materials: From Single-Atom Spectroscopy toFunctionalities in Opto-/Electronics, Nanomagnetism, andCatalysis, ADVANCED MATERIALS, 29 (14):SI 10.1002/ad-ma.201606434 APR 11 2017

1548. Shakeel Ahmad, M., Pandey, A.K., Abd Rahim, N. Advance-ments in the development of TiO2 photoanodes and its fa-brication methods for dye sensitized solar cell (DSSC) appli-cations. A review, 2017 Renewable and Sustainable EnergyReviews 77, pp. 89-108

1547. Mohammed, A.M. Au nanoparticle-modi�ed SiO2 thin �lmfor DNA immobilization and hybridization, 2017 ChineseJournal of Physics 55(2), pp. 242-251

1546. Hwang, HJ; Joo, SJ; Patil, SA; Kim, HS E�ciency enhance-ment in dye-sensitized solar cells using the shape/size-dependent plasmonic nanocomposite photoanodes incor-

porating silver nanoplates, NANOSCALE, 9 (23):7960-7969;10.1039/c7nr01059a JUN 21 2017

1545. Wei, L; Ma, YH; Zhu, XP; Xu, JH; Wang, YX; Duan,HG; Xiao, LH Sub-di�raction-limit localization imagingof a plasmonic nanoparticle pair with wavelengthresol-ved dark-�eld microscopy, NANOSCALE, 9 (25):8747-8755;10.1039/c7nr02474f JUL 7 2017

1544. Shrivas, K; Sahu, J; Maji, P; Sinha, D Label-free selec-tive detection of ampicillin drug in human urine sam-ples using silver nanoparticles as a colorimetric sensingprobe, NEW JOURNAL OF CHEMISTRY, 41 (14):6685-6692;10.1039/c7nj00448f JUL 21 2017

1543. Marks, H., Schechinger, M., Garza, J., Locke, A., Cote, G. Sur-face enhanced Raman spectroscopy (SERS) for in vitro diag-nostic testing at the point of care, (2017) Nanophotonics, 6(4) pp. 681-701.

1542. Mehrdel, B; Aziz, AA; Yoon, TL Resonance position and ex-tinction e�ciency of a single silica coated gold nanos-hell when size e�ects of core is matter, AIP, 1ST UKM-ISESCO-COMSATS INTERNATIONAL WORKSHOP ON NANO-TECHNOLOGY FOR YOUNG SCIENTISTS (IWYS2016), 183810.1063/1.4982184 2017

1541. Long, N.V., Yang, Y., Thi, C.M., Lin, Z.L., Cao, Y., Nogami,M. New developments of gold nanoparticles in plasmonicsensing, (2016) New Developments in Gold NanomaterialsResearch, pp. 117-146.

1540. Atanasov, P.A. Gold nanostructures: Preparation, properties,application in SERS, and biophotonics, (2017) Nanostructu-res for Novel Therapy: Synthesis, Characterization and Ap-plications, pp. 457-496.

1539. Kyaw, HH; Myint, MTZ; Al-Harthi, SH; Maekawa, T; Yanagi-sawa, K; Sellai, A; Dutta, J Observation of exchanging roleof gold and silver nanoparticles in bimetallic thin �lm uponannealing above the glass transition temperature, MATE-RIALS RESEARCH EXPRESS, 4 (8):10.1088/2053-1591/aa84e6AUG 2017

1538. Budnyk, A.P., Cherkasova, S.O., Damin, A. One-pot sol-gelsynthesis of porous silica glass with gold nanoparticles,2017 Mendeleev Communications, 27(5), pp. 531-534.

1537. Zadeh, SH; Rashidi-Huyeh, M; Palpant, B Enhancement ofthe thermo-optical response of silver nanoparticles due tosurface plasmon resonance, JOURNAL OF APPLIED PHYSICS,122 (16):10.1063/1.4997276 OCT 28 2017

1536. Boken, J; Khurana, P; Thatai, S; Kumar, D; Prasad, S Plas-monic nanoparticles and their analytical applications: Areview, APPLIED SPECTROSCOPY REVIEWS, 52 (9):774-820;10.1080/05704928.2017.1312427 2017


1535. Babich, E.S., Polubavkina, Yu.S., Kryzhanovskaya, N.V., Li-povskii, A.A. Near-�eld mapping of three-particle plasmo-nic structures, 2017 Journal of Physics: Conference Series917(6),062012

1534. de Freitas, J.N., de Carvalho Alves, J.P., Nogueira, A.F. Hy-brid solar cells: E�ects of the incorporation of inorganicnanoparticles into bulk heterojunction organic solar cells,(Book Chapter) 2017 Nanoenergy: Nanotechnology Appliedfor Energy Production: Second Edition pp. 1-68

1533. Shrivas, K., Nirmalkar, N., Thakur, S.S., (...), Shinde, S.S.,Shankar, R. Sucrose capped gold nanoparticles as a plas-monic chemical sensor based on non-covalent interactions:Application for selective detection of vitamins B1and B6inbrown and white rice food samples , Food Chemistry, 250,pp. 14-21

1532. Gao, W; Sun, YH; Cai, M; Zhao, YJ; Cao, WH; Liu, ZH; Cui,GW; Tang, B Copper sul�de nanoparticles as a photother-mal switch for TRPV1 signaling to attenuate atherosclerosis,NATURE COMMUNICATIONS, 9 10.1038/s41467-017-02657-zJAN 15 2018

TIPO B (6):

1531. Rozanova, N; Zhang, JZ Photothermal ablation therapy forcancer based on metal nanostructures, Science in China se-ries B- Chemistry 52, 1559 (2009)

1530. JZ Zhang Biomedical Applications of Shape-Controlled Plas-monic Nanostructures: A Case Study of Hollow Gold Nanosp-heres for Photothermal Ablation Therapy of Cancer, J. Phys.Chem. Lett. 1, 686 (2010) (Perspective).

1529. Preciado-Flores, S., Wang, D., Wheeler, D.A., Newhouse, R.,Hensel, J.K., Schwartzberg, A., Wang, L., Zhu, J., Barboza-Flores, M., Zhang, J.Z. Highly reproducible synthesis of ho-llow gold nanospheres with near infrared surface plasmonabsorption using PVP as stabilizing agent, (2011) J. MaterialsChemistry, 21 (7) pp. 2344-2350.

1528. Liu, LP; Wang, GM; Li, Y; Li, YD; Zhang, JZ CdSe quantumdot-sensitized Au/TiO2 hybrid mesoporous �lms and theirenhanced photoelectrochemical performance, Nano Res. 4(3): 249-258 MAR 2011

1527. C. D. Geddes, R. Newhouse, and J. Zhang Optical Propertiesand Applications of Shape-Controlled Metal NanostructuresReviews in Plasmonics, volume 2010. Springer New York,2012.

1526. Adams, S., Zhang, J.Z. Unique optical properties andapplications of hollow gold nanospheres (HGNs), 2016Coordination Chemistry Reviews 320-321, pp. 18-37


Optically active metal nanoparticles, Cecilia Noguez, I.L.Garzon, Chem Soc Rev 38, 757 – 771 (2009)

TIPO A (184):

1525. Si, S; Gautier, C; Boudon, J; Taras, R; Gladiali, S; Buergi, T,Ligand Exchange on Au-25 Cluster with Chiral Thiols, J. Phys.Chem. C 113 12966 (2009)

1524. Nakashima, T., Kobayashi, Y., Kawai, T., Optical activity andchiral memory of thiol-capped CdTe nanocrystals, J. Am.Chem. Soc. 131 10342 (2009)

1523. Mori K, Kondo Y, Yamashita H, Synthesis and characteri-zation of FePd magnetic nanoparticles modi�ed with chiralBINAP ligand as a recoverable catalyst vehicle for the asym-metric coupling reaction, Phys. Chem. Chem. Phys. 11, 8949(2009)

1522. H Yao, N Nishida, K Kimura, Conformational study of chiralpenicillamine ligand on optically active silver nanoclusterswith IR and VCD spectroscopy, Chemical Physics 368, 28(2010)

1521. Batista, R.J.C., Mazzoni, M.S.C., Chacham, H., First-principlesinvestigation of electrochemical properties of gold nano-particles, Nanotechnology 21, art. no. 065705 (2010)

1520. J F McGilp, Probing surface and interface structure usingoptics, J. Phys.: Condens. Matter 22, 084018 (2010).

1519. J George, K. G Thomas Surface Plasmon Coupled CircularDichroism of Au Nanoparticles on Peptide Nanotubes, J. Am.Chem. Soc. 132, 2502 (2010)

1518. Imada H, Ohta M, Yamamoto N Atom-Resolved Luminescen-ce of Si(111)-7x7 Induced by Scanning Tunneling Microscopy,Appl. Phys. Express 3, 045701 (2010)

1517. Zhou, Y., Yang, M., Sun, K., Tang, Z., Kotov, N.A. Similar to-pological origin of chiral centers in organic and nanoscaleinorganic structures: E�ect of stabilizer chirality on opti-cal isomerism and growth of cdte nanocrystals, 2010 J. theAmerican Chemical Society 132 (17), pp. 6006-6013

1516. Xiang, H., Wei, S.-H., Gong, X. Structures of [Ag7(SR)4]- and[Ag 7(DMSA)4]- , 2010 J. the American Chemical Society 132(21), pp. 7355-7360

1515. Nan, J., Yan, X.-P. Facile fabrication of chiral hybrid organic-inorganic nanomaterial with large optical activity for selec-tive and sensitive detection of trace Hg 2+, 2010 ChemicalCommunications 46 (24), pp. 4396-4398

1514. Lopez-Acevedo, O; Tsunoyama, H; Tsukuda, T; Hakkinen, H;Aikens, CM Chirality and electronic structure of the thiolate-protected Au38 nanocluster, J. the American Chemical So-ciety 132, 8210 (2010)


1513. Shukla, N., Bartel, M.A., Gellman, A.J. Enantioselective se-paration on chiral Au nanoparticles, 2010 J. the AmericanChemical Society 132 (25), pp. 8575-8580

1512. P Barbaro, V Dal Santo, F Liguori, Emerging strategies insustainable �ne-chemical synthesis: asymmetric catalysisby metal nanoparticles, Dalton Trans., Dalton Transactions39 (36): 8391-8402 2010

1511. Toma, H.E., Zamarion, V.M., Toma, S.H., Araki, K. The coordi-nation chemistry at gold nanoparticles J. the Brazilian Che-mical Society 21, 1158 (2010)

1510. Kang, YJ; Oh, JW; Kim, YR; Kim, JS; Kim, H Chiral goldnanoparticle-based electrochemical sensor for enantiose-lective recognition of 3,4-dihydroxyphenylalanine, Chem.Comm. 46 (31): 5665-5667 2010

1509. Gautier, C; Burgi, T Vibrational Circular Dichroism of Adsor-bed Molecules: BINAS on Gold Nanoparticles, J. Phys. Chem.C 114 (38): 15897-15902 SEP 30 2010

1508. Molotsky, T; Tamarin, T; Ben Moshe, A; Markovich, G; Kotl-yar, AB Synthesis of Chiral Silver Clusters on a DNA Tem-plate, J. Phys. Chem. C 114 (38): 15951-15954 SEP 30 2010

1507. Bochicchio, D; Ferrando, R Size-Dependent Transition toHigh-Symmetry Chiral Structures in AgCu, AgCo, AgNi, andAuNi Nanoalloys, Nano Lett. 10 (10): 4211-4216 OCT 2010

1506. Andreiadis, E.S., Vitale, M.R., Mezailles, N., Le Go�, X., LeFloch, P., Toullec, P.Y., Michelet, V. Chiral undecagold clus-ters: Synthesis, characterization and investigation in cataly-sis, (2010) Dalton Transactions, 39 (44) pp. 10608-10616.

1505. Mori, K., Yamashita, H. Progress in design and architectu-re of metal nanoparticles for catalytic applications, (2010)Physical Chemistry Chemical Physics, 12 (43) pp. 14420-14432.

1504. Grasseschi, D; Zamarion, VM; Araki, K; Toma, HE SurfaceEnhanced Raman Scattering Spot Tests: A New Insight onFeigl’s Analysis Using Gold Nanoparticles, Analytical Chem.82 (22): 9146-9149 NOV 15 2010

1503. Nakamura, M., Araki, K., Toma, H.E. Probing magnetic andgold nanoparticles by using MAClevers as ultrasensitivesensors, (2010) Nanoscale, 2 (12) pp. 2583-2586.

1502. S Labouille, A Escalle-Lewis, Y Jean, N Mezailles, P Le?FlochMechanism of the Dehydrogenative Silylation of AlcoholsCatalyzed by Cationic Gold Complexes: An Experimentaland Theoretical Study, Chemistry - A European J. 17, Issue7, February 11, 2011, Pages: 2256–2265,

1501. Mori K, Yamashita H Design of Colloidal and Supported Me-tal Nanoparticles: Their Synthesis, Characterization, and Ca-talytic Application, J. Japan Petroleum Institute 54, 1–14 JAN2011

1500. Graf, P; Mantion, A; Haase, A; Thunemann, AF; Masic, A;Meier, W; Luch, A; Taubert, A Silici�cation of Peptide-CoatedSilver Nanoparticles-A Biomimetic So� Chemistry Approachtoward Chiral Hybrid Core-Shell Materials, ACS Nano 5 (2):820-833 FEB 2011

1499. Zhang, M; Ye, BC Colorimetric Chiral Recognition of Enan-tiomers Using the Nucleotide-Capped Silver Nanoparticles,Analytical Chem. 83 (5): 1504-1509 MAR 1 2011

1498. Xia, YH; Zhou, YL; Tang, ZY Chiral inorganic nanoparticles:origin, optical properties and bioapplications, Nanoscale 3(4): 1374-1382 2011

1497. Qi, H; Shopsowitz, KE; Hamad, WY; MacLachlan, MJ ChiralNematic Assemblies of Silver Nanoparticles in MesoporousSilica Thin Films, J. Am. Chem. Soc. 133 (11): 3728-3731 MAR23 2011

1496. Baranov, D; Kadnikova, EN Synthesis and characterizationof azidoalkyl-functionalized gold nanoparticles as sca�oldsfor click”-chemistry derivatization, J. Material Chem. 21 (17):6152-6157 2011

1495. Scida, K., Stege, P.W., Haby, G., Messina, G.A., Garcıa,C.D. Recent applications of carbon-based nanomaterials inanalytical chemistry: Critical review, 2011 Analytica ChimicaActa 691 (1-2), pp. 6-17

1494. Auguie, B; Alonso-Gomez, JL; Guerrero-Martinez, A; Liz-Marzan, LM Fingers Crossed: Optical Activity of a ChiralDimer of Plasmonic Nanorods, J. Phys. Chem. Lett. 2 (8):846-851 APR 21 2011

1493. Train, C; Gruselle, M; Verdaguer, M The fruitful introductionof chirality and control of absolute con�gurations in mole-cular magnets, Chem. Soc. Rev. 40 (6): 3297-3312 2011

1492. Hendler, N; Fadeev, L; Mentovich, ED; Belgorodsky, B; Go-zin, M; Richter, S Bio-inspired synthesis of chiral silver na-noparticles in mucin glycoprotein-the natural choice, Chem.Comm. 47 (26): 7419-7421 2011

1491. Morton, S.M., Silverstein, D.W., Jensen, L. Theoretical stu-dies of plasmonics using electronic structure methods, 2011Chemical Reviews 111 (6), pp. 3962-3994

1490. Nishida, N; Miyashita, A; Hashimoto, N; Murayama, H; Ta-naka, H Regenerative synthesis of copper nanoparticles byphotoirradiation, Europena Phys. J. D 63 (2): 307-310 2011

1489. Guerrero-Martinez, A; Alonso-Gomez, JL; Auguie, B; Cid,MM; Liz-Marzan, LM From individual to collective chiralityin metal nanoparticles, Nano Today 6 (4): 381-400 2011

1488. Wang, RY; Wang, HL; Wu, XC; Ji, YL; Wang, P; Qu, Y; Chung, TSChiral assembly of gold nanorods with collective plasmoniccircular dichroism response, So� Matter 7 (18): 8370-83752011


1487. Scida K; Stege P W.; Haby G, Messina, GA, Garcia, CD Recentapplications of carbon-based nanomaterials in analyticalchemistry: Critical review, Analytica Chimica Acta 691 6-172011

1486. Pandoli, O; Massi, A; Cavazzini, A, Spada, GP, Cui, DX Circulardichroism and UV-Vis absorption spectroscopic monitoringof production of chiral silver nanoparticles templated byguanosine 5 ’-monophosphate, Analyst 136, 3713-3719 2011

1485. Zhu, M., Qian, H., Meng, X., Jin, S., Wu, Z., Jin, R. Chiral Au(25)nanospheres and nanorods: Synthesis and insight into theorigin of chirality, Nano Letters 11 (9), pp. 3963-3969 2011

1484. Rodriguez, J.I., Autschbach, J., Castillo-Alvarado, F.L.,Baltazar-Mendez, M.I. Size evolution study of molecular andatom-in-cluster polarizabilities of medium-size gold clus-ters, J. Chemical Physics 135 (3), art. no. 034109 2011

1483. Le Guennic, B., Autschbach, J [Pt@Pb12]2- A challenging sys-tem for relativistic density functional theory calculations of195Pt and 207Pb NMR parameters, Canadian J. Chemistry89 (7), pp. 814-821

1482. Forster, M., Dyer, M.S., Persson, M., Raval, R. Tailoring homo-chirality at surfaces: Going beyond molecular handedness,J. the American Chemical Society 133 (40), pp. 15992-160002011

1481. Jiang, D.-E. Staple �tness: A concept to understand and pre-dict the structures of thiolated gold nanoclusters, Chemistry- A European Journal 17 (44), pp. 12289-12293, 2011

1480. Qian, HF; Zhu, MZ; Gayathri, C; Gil, RR; Jin, RC Chirality inGold Nanoclusters Probed by NMR Spectroscopy, ACS NANO5 (11): 8935-8942 2011

1479. Zhou, Y., Zhu, Z., Huang, W., Liu, W., Wu, S., Liu, X., Gao, Y.,Zang, W., Tang, Z. Optical coupling between chiral biomo-lecules and semiconductor nanoparticles: Size-dependentcircular dichroism absorption 2011 Angewandte Chemie -International Edition 50 (48), pp. 11456-11459

1478. Mantion, A; Graf, P; Florea, I; Haase, A; Thunemann, AF; Ma-sic, A; Ersen, O; Rabu, P; Meier, W; Luch, A; Taubert, A Biomi-metic synthesis of chiral erbium-doped silver/peptide/silicacore-shell nanoparticles (ESPN), Nanoscale, 3 (12):5168-5179; 2011

1477. Yao, H., Kitaoka, N., Sasaki, A. Chemical transformation ofchiral monolayer-protected gold clusters: Observation of li-gand size e�ects on optical and chiroptical responses, Na-noscale 4 (3) , pp. 955-963, 2012

1476. Yao, H; Saeki, M; Sasaki, A Boronic Acid-Protected GoldClusters Capable of Asymmetric Induction: Spectral De-convolution Analysis of Their Electronic Absorption and

Magnetic Circular Dichroism, Langmuir, 28 (8):3995-4002;10.1021/la204731a FEB 28 2012

1475. Zhao, Y., Xu, L., Kuang, H., Wang, L., Xu, C. Asymmetric andsymmetric PCR of gold nanoparticles: A pathway to scaled-up self-assembly with tunable chirality, J. Materials Che-mistry 22 (12) , pp. 5574-5580, 2012

1474. Tsukuda, T. Toward an atomic-level understanding of size-speci�c properties of protected and stabilized gold clusters,Bulletin of the Chemical Society of Japan 85 (2) , pp. 151-168,2012

1473. Hakkinen, H The gold-sulfur interface at the nanoscale, Na-ture Chem., 4 (6):443-455; 10.1038/NCHEM.1352 JUN 2012

1472. Persechini, L., McGilp, J.F. Chiral second-harmonic genera-tion from small organic molecules at surfaces, (2012) Phy-sica Status Solidi (B) Basic Research, 249 (6) pp. 1155-1159.

1471. Liu, HL; Ye, YJ; Chen, J; Lin, DY; Jiang, Z; Liu, ZJ; Sun, B; Yang,LB; Liu, JH In Situ Photoreduced Silver Nanoparticles on Cys-teine: An Insight into the Origin of Chirality, Chemistry-AEuropean J., 18 (26):8037-8041; 10.1002/chem.201200397JUN 2012

1470. Bochicchio, D; Ferrando, R Structure and thermal stabi-lity of AgCu chiral nanoparticles, European Phys J. D, 66(5):10.1140/epjd/e2012-30054-0 MAY 2012

1469. An, Z., Yamaguchi, M. Chiral recognition in aggregation ofgold nanoparticles gra�ed with helicenes, 2012, ChemicalCommunications 48 (59) , pp. 7383-7385

1468. Kumar, S., Jin, R. Water-soluble Au 25(Capt) 18 nanoclusters:Synthesis, thermal stability, and optical properties, 2012,Nanoscale 4 (14) , pp. 4222-4227

1467. Srivastava, A. K.; Yadev, Rishikesh; Rai, V.; Ganguly, T N;Deb, SK Surface Plasmon Resonance in Gold Nanoparti-cles, Soli Satate Phys, PTS 1 AND 2 Book Series: AIP Con-ference Proceedings Volume: 1447 Pages: 305-306 DOI:10.1063/1.4710001 2012

1466. Xie, J., Duan, Y., Che, S., Chirality of metal nanoparticles inchiral mesoporous silica, 2012, Advanced Functional Mate-rials 22 (18) , pp. 3784-3792

1465. Yan, W., Xu, L., Xu, C., Ma, W., Kuang, H., Wang, L., Kotov, N.A.Self-assembly of chiral nanoparticle pyramids with strongR/S optical activity, 2012, J. the American Chemical Society134 (36) , pp. 15114-15121

1464. Berta, M., Loppinet, B., Vlassopoulos, D., Askounis, A., Kout-sos, V., Pastoriza-Santos, I., Liz-Marzan, L.M. Tailoring theproperties of gra�ed silver nanoprism composites, 2012,Polymer (United Kingdom) 53 (25) , pp. 5771-5778


1463. Maoz, BM; van der Weegen, R; Fan, ZY; Govorov, AO; Elles-tad, G; Berova, N; Meijer, EW; Markovich, G Plasmonic Chi-roptical Response of Silver Nanoparticles Interacting withChiral Supramolecular Assemblies, J. Am. Chem. Soc., 134(42):17807-17813; 10.1021/ja309016k OCT 24 2012

1462. Hakkinen, H Ligand-Protected Gold Nanoclusters asSuperatoms-Insights from Theory and Computations, Edi-tor(s): Johnston RL; Wilcoxon JP, Metal Nanopart. and Na-noalloys, 3 129-157; 10.1016/B978-0-08-096357-0.00004-2 2012, in Frontiers of Nanoscience

1461. Johnston, RL Metal Nanoparticles and Nanoalloys, Editor(s):Johnston RL; Wilcoxon JP, in Metal Nanopart. and Nanoa-lloys, 3 1-42; 10.1016/B978-0-08-096357-0.00006-6 2012,Frontiers of Nanoscience

1460. Xie, JJ; Che, SA Chirality of Anisotropic Metal Nanowi-res with a Distinct Multihelix, Chemistry-A European J., 18(50):15954-15959; 10.1002/chem.201203017 DEC 2012

1459. Ock, K.-S., Dembereldorj, U., Park, J., Ganbold, E.-O., Kim,S., Shin, H.-C., Joo, S.-W. Temperature-dependent structuralchange of D-penicillamine-capped chiral gold nanoparti-cles investigated by infrared spectroscopy, 2013, Spectro-chimica Acta - Part A: Molecular and Biomolecular Spec-troscopy 102 , pp. 419-424

1458. Artemyev, M., Krutokhvostov, R., Melnikau, D., Oleinikov, V.,Sukhanova, A., Nabiev, I. Low-�eld magnetic circular di-chroism in silver and gold colloidal nanoparticles of dif-ferent sizes, shapes, and aggregation states, 2012, Procee-dings of SPIE - The International Society for Optical Engi-neering 8457 , art. no. 845729

1457. Zeng, T., Zhang, X.-L., Niu, H.-Y., Ma, Y.-R., Li, W.-H., Cai, Y.-Q. In situ growth of gold nanoparticles onto polydopamine-encapsulated magnetic microspheres for catalytic reductionof nitrobenzene, 2013, Applied Catalysis B: Environmental134-135 , pp. 26-33

1456. X Yang, L Gan, L Han, D Li, J Wang, E Wang Facile pre-paration of chiral penicillamine protected gold nanoclus-ters and their applications in cell imaging, Chem Comm 49(23):2302-2304 2013

1455. Matczyszyn, K; Olesiak-Banska, J DNA as sca�ol-ding for nanophotonic structures, J Nanophotonics, 610.1117/1.JNP.6.064505 SEP 4 2012

1454. Wang, Y; Xu, J; Wang, YW; Chen, HY Emerging chirality in na-noscience, CHEMICAL SOCIETY REVIEWS, 42 (7):2930-2962;2013

1453. Wang, P; Chen, L; Wang, RY; Ji, YL; Zhai, DW; Wu, XC; Liu,Y; Chen, KQ; Xu, HX Giant optical activity from the radia-tive electromagnetic interactions in plasmonic nanoanten-nas, 2013, Nanoscale 5 (9) , pp. 3889-3894

1452. Valev, V.K., Baumberg, J.J., Sibilia, C., Verbiest, T. Chiralityand chiroptical e�ects in plasmonic nanostructures: Fun-damentals, recent progress, and outlook, 2013, AdvancedMaterials 25 (18) , pp. 2517-2534

1451. Shen, X., Asenjo-Garcia, A., Liu, Q., Jiang, Q., Garcıa DeAbajo, F.J., Liu, N., Ding, B. Three-dimensional plasmonicchiral tetramers assembled by DNA origami, 2013, NanoLetters 13 (5) , pp. 2128-2133

1450. Nergiz, S.Z., Slocik, J.M., Naik, R.R., Singamaneni, S. Sur-face defect sites facilitate �brillation: An insight into ad-sorption of gold-binding peptides on Au(111), 2013, PhysicalChemistry Chemical Physics 15 (28) , pp. 11629-11633

1449. Liu, W., Zhu, Z., Deng, K., Li, Z., Zhou, Y., Qiu, H., Gao, Y., (...),Tang, Z. Gold nanorod at Chiral mesoporous silica core-shellnanoparticles with unique optical properties, 2013, Journalof the American Chemical Society 135 (26) , pp. 9659-9664

1448. Fan, Z., Zhang, H., Govorov, A.O. Optical properties of chi-ral plasmonic tetramers: Circular dichroism and multipolee�ects, 2013, Journal of Physical Chemistry C 117 (28) , pp.14770-1477

1447. Xu, L., Hao, C., Yin, H., Liu, L., Ma, W., Wang, L., Kuang, H., Xu,C. Plasmonic core-satellites nanostructures with high chira-lity and bioproperty, 2013, Journal of Physical ChemistryLetters 4 (14) , pp. 2379-2384

1446. Cao, T., Jin, S., Wang, S., Zhang, D., Meng, X., Zhu, M. A com-parison of the chiral counterion, solvent, and ligand usedto induce a chiroptical response from Au25 - nanoclusters,2013, Nanoscale 5 (16) , pp. 7589-7595

1445. Gonzalez-Campo, A., Amabilino, D.B. Biomolecules at inter-faces: Chiral, naturally, 2013, Topics in Current Chemistry333 , pp. 109-156

1444. Kuang, H., Chen, X., Hao, C., Ma, W., Xu, L., Xu, C. Immuno-driven plasmonic oligomer sensor for the ultrasensitive de-tection of antibiotics, 2013, RSC Advances 3 (38) , pp. 17294-17299

1443. Yan, W., Ma, W., Kuang, H., Liu, L., Wang, L., Xu, L., Xu, C.Plasmonic chirogenesis from gold nanoparticles superstruc-tures, 2013, Journal of Physical Chemistry C 117 (34) , pp.17757-17765

1442. Song, C., Liu, X., Liu, D., Ren, C., Yang, W., Deng, J. Opticallyactive particles of chiral polymers, 2013, MacromolecularRapid Communications 34 (18) , pp. 1426-1445

1441. Ben-Moshe, A., Maoz, B.M., Govorov, A.O., Markovich, G.Chirality and chiroptical e�ects in inorganic nanocrystalsystems with plasmon and exciton resonances, 2013, Che-mical Society Reviews 42 (16) , pp. 7028-7041


1440. Koktan, J., Rezanka, P., Matejka, P., Kral, V. Stanoveni pomeruenantiomeru L- a D-cysteinu pomoci nanocastic stribra —[Determination of the ratio of enantiomers L-and D-cysteineusing silver nanoparticles], 2013, Chemicke Listy 107 (SPEC.ISSUE 2) , pp. s240-s242

1439. Yang, Y., Pei, X.-L., Wang, Q.-M. Postclustering dynamic co-valent modi�cation for chirality control and chiral sensing,2013, Journal of the American Chemical Society 135 (43) ,pp. 16184-16191

1438. Siddiqui, A.A., Lakhtakia, A. Debye-H¸ckel solution forsteady electro-osmotic �ow of micropolar �uid in cylindricalmicrocapillary, 2013, Applied Mathematics and Mechanics(English Edition) 34 (11) , pp. 1305-1326

1437. Pedicini, A.F., Reber, A.C., Khanna, S.N. The e�ect of sulfurcovalent bonding on the electronic shells of silver clusters,2013, Journal of Chemical Physics 139 (16) , art. no. 164317

1436. Larsen, G.K., He, Y., Ingram, W., Zhao, Y. Hidden chirality insuper�cially racemic patchy silver �lms, 2013, Nano Letters13 (12) , pp. 6228-6232

1435. Sinha, B; Goswami, T; Paul, S; Misra, A The impact of surfacestructure and band gap on the optoelectronic propertiesof Cu2O nanoclusters of varying size and symmetry, RSCADVANCES, 4 (10):5092-5104; 10.1039/c3ra45387a 2014

1434. Zhang, L., Xu, C., Liu, C., Li, B. Visual chiral recognition oftryptophan enantiomers using unmodi�ed gold nanoparti-cles as colorimetric probes, 2014, Analytica Chimica Acta809 , pp. 123-127

1433. Yasukawa, T., Miyamura, H., Kobayashi, S. Chiral me-tal nanoparticle-catalyzed asymmetric C-C bond formationreactions, Chemical Society Reviews 43 (5), 2014, Pages1450-1461

1432. Qian, HF Thiolate-protected Au-38(SR)(24) nanocluster:size-focusing synthesis, structure determination, intrinsicchirality, and beyond, PURE AND APPLIED CHEMISTRY, 86(1):27-37; 10.1515/pac-2014-5011 JAN 2014

1431. Heister, P., Lunskens, T., ThAmer, M., Kartouzian, A., Gerlach,S.a Verbiest, T., Heiz, U. Orientational changes of suppor-ted chiral 2,2-dihydroxy-1, 1binaphthyl molecules, PhysicalChemistry Chemical Physics Volume 16, Issue 16, 28 April2014, Pages 7299-7306

1430. Wang, XS; Wang, Y; Zhu, JR; Xu, Y Hierarchical AgNRat Cys at AuNPs Helical Core-Satellite Nanostructure:Shape-Dependent Assembly and Chiroptical Response,JOURNAL OF PHYSICAL CHEMISTRY C, 118 (11):5782-5788;10.1021/jp410620b MAR 20 2014

1429. Lin, Y., Ding, Y., Jiang, X. Preparation and theranostic appli-cations of polymer-inorganic hybrid nanospheres, Progressin Chemistry, Volume 26, Issue 2-3, March 2014, Pages 450-457

1428. Wang, Z., Zhai, S. , Zhai, B., Xiao, Z., An, Q. Preparation andcatalytic properties of nano-Au catalytic materials basedon the reduction of 4-nitrophenol, Progress in Chemistry,Volume 26, Issue 2-3, March 2014, Pages 234-247

1427. Knoppe, S., Burgi, T. Chirality in thiolate-protected gold clus-ters, Accounts of Chemical Research, Volume 47, Issue 4, 15April 2014, Pages 1318-1326

1426. Zhang, L., Wang, E. Metal nanoclusters: New �uorescent pro-bes for sensors and bioimaging, Nano Today, Volume 9,Issue 1, February 2014, Pages 132-157

1425. Hao, C., Xu, L., Ma, W., Wang, L., Kuang, H. , Xu, C. Assembledplasmonic asymmetric heterodimers with tailorable chirop-tical response, Small Volume 10, Issue 9, 14 May 2014, Pages1805-1812

1424. Qian, H. Thiolate-protected Au38(SR)24 nanocluster: Size-focusing synthesis, structure determination, intrinsic chira-lity, and beyond, Pure and Applied Chemistry Volume 86,Issue 1, 22 January 2014, Pages 27-37

1423. Wang, X., Fu, J. , Wang, M., Wang, Y., Chen, Z., Zhang, J.,Chen, J., Xu, Q. Facile synthesis of Au nanoparticles suppor-ted on polyphosphazene functionalized carbon nanotubesfor catalytic reduction of 4-nitrophenol, Journal of MaterialsScience Volume 49, Issue 14, July 2014, Pages 5056-5065

1422. Caricato, M., Sharma, A.K., Coluccini, C., Pasini, D. Nanos-tructuring with chirality: Binaphthyl-based synthons for theproduction of functional oriented nanomaterials, Nanoscale6, Issue 13, 7 July 2014, Pages 7165-7174

1421. Wang, Z.-G., Ding, B. Engineering DNA self-assemblies astemplates for functional nanostructures, Accounts of Che-mical Research 47, Issue 6, 17 June 2014, Pages 1654-1662

1420. Cai, H., Wang, C., Li, B., Li, Y., Yang, Y Preparation and cha-racterization of single-handed twisted platinum tubular na-noribbons, Materials Letters Volume 133, 15 October 2014,Pages 147-150

1419. Liu, H., Shen, X., Wang, Z.-G., Kuzyk, A., Ding, B. Helical na-nostructures based on DNA self-assembly, Nanoscale Volu-me 6, Issue 16, 21 August 2014, Pages 9331-9338

1418. Liu, C., Li, B. , Xu, C. Colorimetric chiral discrimination anddetermination of enantiometric excess of D/L-tryptophanusing silver nanoparticles, Microchimica Acta Volume 181,Issue 11-12, August 2014, Pages 1407-1413


1417. Polavarapu, L., Perez-Juste, J., Xu, Q.-H., Liz-Marzan, L.M.Optical sensing of biological, chemical and ionic speciesthrough aggregation of plasmonic nanoparticles, Journal ofMaterials Chemistry C Volume 2, Issue 36, 28 September2014, Pages 7460-7476

1416. Nishida, N. , Kojima, Y., Tanaka, H. Intense plasmon-inducedcotton e�ects in colloidal silver triangular nanoplates synt-hesized by a ligand-exchange process, Chemistry LettersVolume 43, Issue 8, 2014, Pages 1227-1229

1415. Manzoor, D., Pal, S. Enhanced interaction of molecular oxy-gen with amino acid complexes of silver and gold clusters,Indian Journal of Chemistry - Section A Inorganic, Physical,Theoretical and Analytical Chemistry Volume 53, Issue 8-9,August-September 2014, Pages 996-1000

1414. Malola, S., Lehtovaara, L., Hakkinen, H TDDFT analysis ofoptical properties of thiol monolayer-protected gold andintermetallic silver-gold Au144(SR)60 and Au 84Ag60(SR)60clusters, Journal of Physical Chemistry C Volume 118, Issue34, August 28, 2014, Pages 20002-20008

1413. Agnes, M., Sorrenti, A., Pasini, D., Wurst, K., Amabilino,D.B. Crystal structure analyses facilitate understanding ofsynthesis protocols in the preparation of 6,6?-dibromo-substituted BINOL compounds, CrystEngCommVolume 16,Issue 43, 21 November 2014, Pages 10131-10138

1412. Barrabes, N. , Zhang, B., Burgi, T. Racemization of chiralPd2Au36(SC2H4Ph)24: Doping increases the �exibility of thecluster surface, Journal of the American Chemical SocietyVolume 136, Issue 41, 15 October 2014, Pages 14361-14364

1411. Shukla, N., Ondeck, N., Gellman, A.J. Quantitation of enan-tiospeci�c adsorption on chiral nanoparticles from opticalrotation, Surface Science Volume 629, November 2014, Pa-ges 15-19

1410. Schlesinger, M., Giese, M., Blusch, L.K., Hamad, W.Y., Ma-clachlan, M.J. Chiral nematic cellulose-gold nanoparticlecomposites from mesoporous photonic cellulose, ChemicalCommunications Volume 51, Issue 3, 11 January 2015, Pages530-533

1409. Shi, L., Li, B., Wu, L. Polyoxometalates as inorganic chiralligands for the synthesis of chiral nanoparticles, ChemicalCommunications Volume 51, Issue 1, 4 January 2015, Pages172-175

1408. Sharma, A., Mori, T., Lee, H.-C., Worden, M., Bidwell, E., Heg-mann, T. Detecting, visualizing, and measuring gold nano-particle chirality using helical pitch measurements in nema-tic liquid crystal phases, ACS Nano Volume 8, Issue 12, 23December 2014, Pages 11966-11976

1407. Wang, M., Fu, J., Chen, Z., Wang, X., Xu, Q. In situ growthof gold nanoparticles onto polyphosphazene microsphereswith amino-groups for alcohol oxidation in aqueous solu-tions, Materials Letters 143, pp. 201-204 (2015)

1406. Persechini, L., Mcgilp, J.F. Probing chiral monolayers of cys-teine on Au(110) using re�ection anisotropy spectroscopyand second-harmonic generation, Physica Status Solidi (B)Basic Research Volume 252, Issue 1, 1 January 2015, Pages95-99

1405. Annadhasan, M., Kasthuri, J., Rajendiran, N. Green synthesisof gold nanoparticles under sunlight irradiation and theircolorimetric detection of Ni2+ and Co2+ ions, RSC AdvancesVolume 5, Issue 15, 2015, Pages 11458-11468

1404. Koktan, J., Sedlackova, H., Osante, I., Cativiela, C., Diaz Diaz,D., Rezanka, P. Chiral supramolecular nanoparticles: Thestudy of chiral surface modi�cation of silver nanoparticlesby cysteine and its derivatives, Colloids and Surfaces A:Physicochemical and Engineering Aspects Volume 470, April01, 2015, Pages 142-148

1403. Islam, DA; Borah, D; Acharya, H Controlled synthesis ofmonodisperse silver nanoparticles supported layered dou-ble hydroxide catalyst, RSC ADVANCES, 5 (17):13239-13245;10.1039/c4ra14286a 2015

1402. Li, J; Li, HY; Hu, HF; Zhao, Y; Wang, Q Prepa-ration and application of polymer nano-�ber dopedwith nano-particles, OPTICAL MATERIALS, 40 49-56;10.1016/j.optmat.2014.11.045 FEB 2015

1401. Giese, M., Blusch, L.K., Khan, M.K., MacLachlan, M.J. Fun-ctional materials from cellulose-derived liquid-crystal tem-plates, 2015 Angewandte Chemie - International Edition 54(10), pp. 2888-2910

1400. Zhou, P., Shi, R., Yao, J.-F., Sheng, C.-F., Li, H. Supramolecularself-assembly of nucleotide-metal coordination complexes:From simple molecules to nanomaterials, 2015 CoordinationChemistry Reviews 292, pp. 107-143

1399. Gellman, AJ; Tysoe, WT; Zaera, F Surface Chemistry forEnantioselective Catalysis, CATALYSIS LETTERS, 145 (1):220-232; 10.1007/s10562-014-1400-8 JAN 2015

1398. Shukla, N; Ondeck, N; Khosla, N; Klara, S; Petti, A; Gellman,A Polarimetric Detection of Enantioselective Adsorption byChiral Au Nanoparticles - E�ects of Temperature, Wave-length and Size, NANOMATERIALS AND NANOTECHNOLOGY,5 10.5772/60109 JAN 27 2015

1397. Zhou, P., Shi, R., Yao, J.-F., Sheng, C.-F., Li, H. Supramolecularself-assembly of nucleotide-metal coordination complexes:From simple molecules to nanomaterials, 2015 CoordinationChemistry Reviews 292, pp. 107-143


1396. Dolamic, I., Varnholt, B., Burgi, T. Chirality transfer from goldnanocluster to adsorbate evidenced by vibrational circulardichroism, 2015 Nature Communications 6, 7117

1395. J.F., Severino, P., Souto, S.B., Souto, E.B. Nanomedicinesfor immunization and vaccines, 2013 (Book Chapter) Pa-tenting Nanomedicines: Legal Aspects, Intellectual Propertyand Grant Opportunities pp. 435-450

1394. De Freitas, J.N., Nogueira, A.F. Incorporation of inorganicnanoparticles into bulk heterojunction organic solar cells,2012 (Book Chapter) Nanoenergy: Nanotechnology Appliedfor Energy Productionpp. 1-47

1393. Fernando, A; Dimuthu, KL; Weerawardene, M; Karimova,NV; Aikens, CM Quantum Mechanical Studies of Large Me-tal, Metal Oxide, and Metal Chalcogenide Nanoparticlesand Clusters, CHEMICAL REVIEWS, 115 (12):6112-6216; SI10.1021/cr500506r JUN 24 2015

1392. Guo, Y., Zhao, X., Long, T., (...), Liu, Z., Huang, C. Histidine-mediated synthesis of chiral �uorescence gold nanoclus-ters: Insight into the origin of nanoscale chirality, 2015 RSCAdvances 5 (75), pp. 61449-61454

1391. Wang, Z., Xu, C., Li, X., Liu, Z. In situ green synthesis of Agnanoparticles on tea polyphenols-modi�ed graphene andtheir catalytic reduction activity of 4-nitrophenol, Colloidsand Surfaces A: Physicochemical and Engineering Aspects485, 20151, pp. 102-110

1390. Cheng, G., Di, J., Wang, Y. Chiroptical study of Metal atsemiconductor-molecule composites: Interaction betweencysteine and Ag at Ag 3PO4 core-shell hybrid nanorods,2015 Journal of Physical Chemistry C 119 (38), pp. 22122-22130

1389. Hao, C., Xu, L., Ma, W., (...), Kuang, H., Xu, C. Unusual Circu-larly Polarized Photocatalytic Activity in Nanogapped Gold-Silver Chiroplasmonic Nanostructures, 2015 Advanced Fun-ctional Materials 25 (36), pp. 5816-5822

1388. Barcaro, G; Sementa, L; Fortunelli, A; Stener, M Optical pro-perties of nanoalloys, PHYSICAL CHEMISTRY CHEMICAL PHY-SICS, 17 (42):27952-27967; 1 2015

1387. Bouri, M., Salghi, R., Zougagh, M., Rios, A. Enantioselectivediscrimination of menthone enantiomers by using achiral li-quid chromatography with circular dichroism detection andpenicillamine-coated gold nanoparticles, 2016 Microchemi-cal Journal 124, pp. 736-742

1386. Tian, XR; Fang, YR; Sun, MT Formation of Enhanced UniformChiral Fields in Symmetric Dimer Nanostructures, SCIENTIFICREPORTS, 5 10.1038/srep17534 DEC 1 2015

1385. Cao, YY; Che, SA Optically Active Chiral DNA-Silica Hy-brid Free-Standing Films, CHEMISTRY OF MATERIALS, 27(23):7844-7851; 10.1021/acs.chemmater.5b02647 DEC 82015

1384. Suzuki, N; Wang, YC; Elvati, P; Qu, ZB; Kim, K; Jiang, S; Bau-meister, E; Lee, J; Yeom, B; Bahng, JH; Lee, J; Violi, A; Kotov,NA Chiral Graphene Quantum Dots, ACS NANO, 10 (2):1744-1755; 10.1021/acsnano.5b06369 FEB 2016

1383. Dubarle-O�ner, J., Moussa, J., Amouri, H., (...), Bouteiller, L.,Raynal, M. Induced Circular Dichroism in Phosphine Gold(I)Aryl Acetylide Urea Complexes through Hydrogen-BondedChiral Co-Assemblies, 2016 Chemistry - A European Journal22 (12), pp. 3985-3990

1382. Nishimura, R., Yasutake, R., Yamada, S., (...), Nakahodo, T.,Fujihara, H. Chiral metal nanoparticles encapsulated by achiral phosphine cavitand with the tetrakis-BINAP moiety:Their remarkable stability toward ligand exchange and ther-mal racemization, 2016 Dalton Transactions 45 (11), pp.4486-4490

1381. Tashkhourian, J., Afsharinejad, M., Zolghadr, A.R. Colorime-tric chiral discrimination and determination of S-citaloprambased on induced aggregation of gold nanoparticles, 2016Sensors and Actuators, B: Chemical 232, pp. 52-59

1380. He, X; Wang, YC; Jiang, H; Zhao, L Structurally Well-De�nedSigmoidal Gold Clusters: Probing the Correlation betweenMetal Atom Arrangement and Chiroptical Response, JOUR-NAL OF THE AMERICAN CHEMICAL SOCIETY, 138 (17):5634-5643; 10.1021/jacs.6b01658 MAY 4 2016

1379. Long, TF; Guo, YJ; Lin, M; Yuan, MK; Liu, ZD; Huang,CZ Optically active red-emitting Cu nanoclusters origina-ting from complexation and redox reaction between cop-per(II) and D/L-penicillamine, NANOSCALE, 8 (18):9764-9770; 10.1039/c6nr01492e 2016

1378. Hakkinen, H Electronic Structure: Shell Structure and the Su-peratom Concept, PROTECTED METAL CLUSTERS: FROM FUN-DAMENTALS TO APPLICATIONS, 9 189-222; 10.1016/B978-0-08-100086-1.00008-7 2015, Book Series: Frontiers of Na-noscience

1377. Ni, TW; Tofanelli, MA; Ackerson, CJ Structure Determinationby Single Crystal X-ray Crystallography, PROTECTED METALCLUSTERS: FROM FUNDAMENTALS TO APPLICATIONS, 9 103-125; 10.1016/B978-0-08-100086-1.00005-1 2015, Book Se-ries: Frontiers of Nanoscience

1376. Fan, Z., Zhang, H., Schreiber, R., (...), Gun’ko, Y.K., Govorov,A.O. Chiral nanostructures with plasmon and exciton reso-nances, (Book Chapter) 2014 in Singular and Chiral Nano-plasmonics pp. 1-55


1375. Jin, R., Zeng, C., Zhou, M., Chen, Y. Atomically Precise Co-lloidal Metal Nanoclusters and Nanoparticles: Fundamen-tals and Opportunities, 2016 Chemical Reviews 116 (18), pp.10346-10413

1374. Mori, T., Sharma, A., Hegmann, T. Signi�cant enhancementof the chiral correlation length in nematic liquid crystalsby gold nanoparticle surfaces featuring axially chiral bi-naphthyl ligands, 2016 ACS Nano 10 (1), pp. 1552-1564

1373. Yan, JZ; Su, HF; Yang, HY; Hu, CY; Malola, S; Lin, SC; Teo,BK; Hakkinen, H; Zheng, NF Asymmetric Synthesis of ChiralBimetallic [Ag28Cu12(SR)(24)](4-) Nanoclusters via Ion Pai-ring, JOURNAL OF THE AMERICAN CHEMICAL SOCIETY, 138(39):12751-12754; 10.1021/jacs.6b08100 OCT 5 2016

1372. Kumar, J., Thomas, K.G., Liz-Marzan, L.M. Nanoscale chira-lity in metal and semiconductor nanoparticles, 2016 Che-mical Communications 52 (85), pp. 12555-12569

1371. Yao, H. Chiral ligand-protected gold nanoclusters: Conside-ring the optical activity from a viewpoint of ligand dissym-metric �eld, 2016 Progress in Natural Science: Materials In-ternational 26 (5), pp. 428-439

1370. Liang, Zhumei; Bernardino, Kalil; Han, Jishu; et al. Opticalanisotropy and sign reversal in layer-by-layer assembled�lms from chiral nanoparticles, FARADAY DISCUSSIONS Vo-lume: 191 Pages: 141-157

1369. Ferrando, R. Optical properties of nanoalloys, 2016 Frontiersof Nanoscience 10, pp. 267-287

1368. Schaferling, M. Chiroptical spectroscopy, 2017 Springer Se-ries in Optical Sciences 205, pp. 43-60

1367. Takano, S., Tsukuda, T. Ampli�cation of the Optical Activityof Gold Clusters by the Proximity of BINAP, 2016 Journal ofPhysical Chemistry Letters 7 (22), pp. 4509-4513

1366. Grasseschi, D., Toma, H.E. The SERS e�ect in coordinationchemistry, 2017 Coordination Chemistry Reviews 333, pp.108-131

1365. Yao, H; Shiratsu, T Improving the Quality ofElectrophoretically-fractionated Chiral Au-38(SG)(24)Nanoclusters through a Stepwise Phase-transfer ExtractionProcess: An Absorption and CD Spectroscopic Study,CHEMISTRY LETTERS, 46 (1):104-107; 2017

1364. Visheratina, AK; Purcell-Milton, F; Serrano-Garcia, R; Kuz-netsova, VA; Orlova, AO; Fedorov, AV; Baranov, AV; Gunko,Y.K. Chiral recognition of optically active CoFe2O4 magne-tic nanoparticles by CdSe/CdS quantum dots stabilised withchiral ligands, 2017 Journal of Materials Chemistry C 5(7),pp. 1692-1698

1363. Wang, XA; Tang, ZY Circular Dichroism Studies on PlasmonicNanostructures, SMALL, 13 (1):10.1002/smll.201601115 JAN 42017

1362. Amabilino, D.B. Chiral In�uences in Functional MolecularMaterials, (Book Chapter) 2016 Chirality in SupramolecularAssemblies: Causes and Consequences pp. 159-189

1361. Yao, HZ; Zhong, SC; Yi, H; Cui, DX; Pan, CL Handedness-Switchable Optical Chirality in One-Dimensional PeriodicPlasmonic-Grooves for Circular Dichroism and Simultaneo-us Refractive Index Sensing, IEEE PHOTONICS JOURNAL, 9(3):10.1109/JPHOT.2017.2690989 JUN 2017

1360. Ma, W; Xu, LG; de Moura, AF; Wu, XL; Kuang, H; Xu, CL; Kotov,NA Chiral Inorganic Nanostructures, CHEMICAL REVIEWS, 117(12):8041-8093; 10.1021/acs.chemrev.6b00755 JUN 28 2017

1359. Zaera, F. The Surface Chemistry of Metal-Based Hydroge-nation Catalysis, (2017) ACS Catalysis, 7 (8) pp. 4947-4967.

1358. Imanaka, Y; Nakahodo, T; Fujihara, H Chiral Copper(0) Na-noparticles: Direct Synthesis and Interfacial Chiral Inductionvia Phase Transfer of Copper Nanoparticles, CHEMISTRY-SELECT, 2 (21):5806-5809; 10.1002/slct.201700766 JUL 212017

1357. Chen, LS; Liu, S; Chang, FX; Xie, X; Zhu, ZW A GoldNanoparticles-Enhanced Carbon Nanotubes Electrochemi-cal Chiral Sensor, ELECTROANALYSIS, 29 (4):955-959;10.1002/elan.201600747 APR 2017

1356. Zeng, CJ; Jin, RC Chiral Gold Nanoclusters: Atomic Le-vel Origins of Chirality, CHEMISTRY-AN ASIAN JOURNAL, 12(15):1839-1850; 10.1002/asia.201700023 AUG 4 2017

1355. Brach, K; Waszkielewicz, M; Olesiak-Banska, J; Samoc, M;Matczyszyn, K Two-Photon Imaging of 3D Organization ofBimetallic AuAg Nanoclusters in DNA Matrix, LANGMUIR,33 (36):8993-8999; 10.1021/acs.langmuir.7b00873 SEP 122017

1354. Huo, SW; Duan, PF; Jiao, TF; Peng, QM; Liu, MH Self-Assembled Luminescent Quantum Dots To Generate Full-Color and White Circularly Polarized Light, ANGEWAND-TE CHEMIE-INTERNATIONAL EDITION, 56 (40):12174-12178;10.1002/anie.201706308 SEP 25 2017

1353. Wei, JJ; Guo, YJ; Li, JZ; Yuan, MK; Long, TF; Liu, ZD OpticallyActive Ultra�ne Au-Ag Alloy Nanoparticles Used for Colo-rimetric Chiral Recognition and Circular Dichroism Sensingof Enantiomers, ANALYTICAL CHEMISTRY, 89 (18):9781-9787;10.1021/acs.analchem.7b01723 SEP 19 2017

1352. Ferrando, R Structure and Properties of Nanoalloys, STRUC-TURE AND PROPERTIES OF NANOALLOYS, 10 1-337; 2016Book Series: Frontiers of Nanoscience


1351. Jiang, S; Chekini, M; Qu, ZB; Wang, YC; Yeltik, A; Liu, YG;Kotlyar, A; Zhang, TY; Li, B; Demir, HV; Kotov, NA ChiralCeramic Nanoparticles and Peptide Catalysis, JOURNAL OFTHE AMERICAN CHEMICAL SOCIETY, 139 (39):13701-13712;10.1021/jacs.7b01445 OCT 4 2017

1350. Buckhout-White, S., Ancona, M., Gemmill, K.B., Goldman,E.R., Medintz, I.L. Characterizing functionalized DNA for Usein nanomedicine (Book Chapter) 2013 DNA and RNA Na-nobiotechnologies in Medicine: Diagnosis and Treatment ofDiseases pp. 11-41

1349. Yuan, MK; Guo, YJ; Wei, JJ; Li, JZ; Long, TF; Liu, ZD Opti-cally active blue-emitting carbon dots to speci�cally targetthe Golgi apparatus, RSC ADVANCES, 7 (79):49931-49936;10.1039/c7ra09271g 2017

1348. Tashkhourian, J; Afsharinejad, M A novel colorimetric sensorfor sensitive determination of R-citalopram based on theplasmonic properties of silver nanoparticles, NEW JOURNALOF CHEMISTRY, 41 (22):13881-13888; 10.1039/c7nj02962dNOV 21 2017

1347. Yang, HY; Yan, JZ; Wang, Y; Deng, GC; Su, HF; Zhao, XJ; Xu,CF; Teo, BK; Zheng, N.F. From Racemic Metal Nanoparticlesto Optically Pure Enantiomers in One Pot, 2017 Journal ofthe American Chemical Society 139(45), pp. 16113-16116

1346. He, J., Wang, Y., Fan, Z., Wang, Y., Zhang, H., Chen, H. Spi-rals and helices by asymmetric active surface growth, 2017Nanoscale 9(46), pp. 18352-18358

1345. de Freitas, J.N., de Carvalho Alves, J.P., Nogueira, A.F. Hy-brid solar cells: E�ects of the incorporation of inorganicnanoparticles into bulk heterojunction organic solar cells,(Book Chapter) 2017 Nanoenergy: Nanotechnology Appliedfor Energy Production: Second Edition pp. 1-68

1344. Matsuno, M; Noor, S; Numata, T; Haraguchi, T; Akitsu, T; Ha-ra, M Synthesis and structural characterization of new [Cu-II-TiO2] composites from Cu-II-salen as precursors, JOUR-NAL OF THE INDIAN CHEMICAL SOCIETY, 94 (10):1089-1098;OCT 2017

1343. Yuan, WZ; Chen, XN; Xu, YF; Yan, C; Liu, Y; Lian, WS; Zhou,Y; Li, ZH Preparation and recyclable catalysis performanceof functional macroporous polyHIPE immobilized with goldnanoparticles on its surface, 2018 RSC Advances 8(11), pp.5912-5919

1342. Zhang, QY; Zhao, L Chiral metal cluster and nano-cluster complexes and their application in asymme-tric catalysis, TETRAHEDRON LETTERS, 59 (4):310-316;10.1016/j.tetlet.2017.12.006 JAN 24 2018

1341. Huang, H., Wang, H., Wu, Y., Shi, Y., Deng, J. Chiral, crosslin-ked, and micron-sized spheres of substituted polyacetyleneprepared by precipitation polymerization, Polymer (UnitedKingdom), 139, pp. 76-85.

1340. Thomas, R., Kumar, J., George, J., (...), Swathi, R.S., Thomas,K.G. Coupling of Elementary Electronic Excitations: DrawingParallels between Excitons and Plasmons, Journal of Physi-cal Chemistry Letters, 9(4), pp. 919-932.

TIPO B (2):

1339. Molina, B., Sanchez-Castillo, A., Knoppe, S., Garzon, I.L.,Burgi, T., Tlahuice-Flores, A. Structures and chiroptical pro-perties of the BINAS-monosubstituted Au 38(SCH3)24 clus-ter, 2013, Nanoscale 5 (22) , pp. 10956-10962

1338. Pelayo, J.J., Whetten, R.L., Garzon, I.L. Geometric Quanti�-cation of Chirality in Ligand-Protected Metal Clusters, 2015Journal of Physical Chemistry C 119 (51), pp. 28666-28678


Optical Properties of Isolated and Supported MetalNanoparticles, Cecilia Noguez, Opt Materials 27, 1204(2005)

TIPO A (111):

1337. H Yao, K Miki, N Nishida, A Sasaki, K Kimura, Large OpticalActivity of Gold Nanocluster Enantiomers Induced by a Pairof Optically Active Penicillamines, J. Am. Chem. Soc. (2005)127, 15536

1336. Lin, Z.; Orlov, A.; Lambert, R. M.; Payne, M. C.; New In-sights into the Origin of Visible Light Photocatalytic Activityof Nitrogen-Doped and Oxygen-De�cient Anatase TiO2, J.Phys. Chem. B (2005) 109, 20948

1335. A Babapour, O Akhavan, R Azimirad and A Z Moshfegh, Phy-sical characteristics of heat-treated nano-silvers dispersedin sol–gel silica matrix, Nanotechnology 17, 763 (2006)

1334. Railing Chang and P. T. Leung , Nonlocal e�ects on opticaland molecular interactions with metallic nanoshells, Phys.Rev. B 73, 125438 (2006).

1333. Kooij, ES; Poelsema, B; Shape and size e�ects in the opticalproperties of metallic nanorods, Phys Chem Chem Phys 8,3349 (2006)

1332. Wohlrab, S.; Weiss, M.; Du, H.; Kaskel, S.; Synthesis of MN-bO3 Nanoparticles (M = Li, Na, K), Chem. Mater. (2006) 18,4227

1331. Yin, G; Wang, SY; Xu, M; Chen, LY; Theoretical calculationof the optical properties of gold nanoparticles, J of KoreanPhys Society 49, 2108 (2006)


1330. G. Mattei, P. Mazzoldi, M. L. Post, D. Buso, M. Guglielmi,A. Martucci, Cookie-like Au/NiO Nanoparticles with OpticalGas-Sensing Properties Advanced Materials 19, 561 (2007)

1329. Nishida, N.; Yao, H.; Ueda, T.; Sasaki, A.; Kimura, K. Synthe-sis and Chiroptical Study of D/L-Penicillamine-Capped SilverNanoclusters, Chemistry of Materials 19, 2831 (2007)

1328. A. Azarian, A. Iraji zad and A. Dolati, An optical study ofcobalt nanowires dispersed in liquid phase, Optics Commu-nications 274, 471 (2007)

1327. Jayabalan, J., Singh, A., Chari, R., Oak, S.M., Ultrafast third-order nonlinearity of silver nanospheres and nanodiscs, Na-notechnology 18 art. no. 315704 (2007).

1326. Ovchinnikov, V., Priimagi, A., Anisotropic plasmon resonanceof surface metallic nanostructures prepared by ion beammixing, First International Conference on Quantum, Nano,and Micro Technologies, ICQNM 2007, art. no. 4076996.

1325. J Toudert, D Babonneau, S Camelio, T Girardeau, F Yubero, JP Espinos and A R Gonzalez-Elipe, Using ion beams to tunethe nanostructure and optical response of co-deposited Ag: BN thin �lms, J. Phys. D: Appl. Phys. 40, (2007) 4614

1324. V.V. Klimov and D.V. Guzatov, Pasmonic atoms and plasmo-nic molecules, Journal Applied Physics A: Materials Science& Processing, 89, 305 (2007)

1323. Ye, X.; Zhou, Y.; Chen, J.; Sun, Y. Synthesis and infrared emis-sivity study of collagen-g-PMMA/Ag at TiO2 composite, Ma-terials Chemistry & Physics 106, 447 (2007)

1322. Keiko Munechika, Jessica M. Smith, Yeechi Chen, and DavidS. Ginger, Plasmon Line Widths of Single Silver Nanoprismsas a Function of Particle Size and Plasmon Peak Position, J.Phys. Chem. C 111, 18906 (2007)

1321. J Toudert, D Babonneau, L Simonot, S Camelio and T Gi-rardeau, Quantitative modelling of the surface plasmon re-sonances of metal nanoclusters sandwiched between die-lectric layers: the in�uence of nanocluster size, shape andorganization, Nanotechnology 19, 125709 (2008)

1320. Kebin Li, Liviu Clime, Bo Cui and Teodor Veres, Surfaceenhanced Raman scattering on long-range ordered noble-metal nanocrescent arrays Nanotechnology 19 ,145305(2008)



1317. Kim SW, Hui BJ, Bae DS; Anomalous absorption of isola-ted silver nanoparticulate �lms in visible region of electro-magnetic �eld, J of Nanoscience & Nanotechnology 8, 739(2008)

1316. D Barreca, A. Gasparotto, C Maccato, E Tondello, Silica-sandwiched Au nanoparticle arrays by a so� PE-CVD/RFsputtering approach, Nanotechnology 19, 255602 (2008)

1315. Gnanavel, M., Sunandana, C.S.; Optics of triangular Mie par-ticles in ultrathin Ag �lms, Proceedings of SPIE - The Interna-tional Society for Optical Engineering 6901, art. no. 69011E

1314. O. Pena-Rodrıguez, U. Pal, L. Rodrıguez-Fernandez, A.Crespo-Sosa; Linear optical response of metallic nanoshellsin di�erent dielectric media, Journal of the Optical Societyof America B: Optical Physics 25, 1371 (2008)

1313. Olson, T.Y., Zhang, J.Z., Structural and optical properties andemerging applications of metal nanomaterials, Journal ofMaterials Science and Technology 24 433 (2008)

1312. Albella, P., Moreno, F., Saiz, J.M., Gonzalez, F. Surface ins-pection by monitoring spectral shi�s of localized plasmonresonances, Optics Express 16, 12872 (2008)


1310. Ovchinnikov, V., Shevchenko, A., Surface plasmon resonan-ces in di�usive re�ection spectra of multilayered silvernanocomposite �lms, Proceedings - The 2nd InternationalConference on Quantum-, Nano- and Micro-technologies,ICQNM 2008, art. no. 4455929, pp. 40-44 (2008)

1309. Kumar, P, Krishna MG, Bhattacharya AK, Electric-�eld-induced nanostructuring of metallic thin �lms, InternationalJournal of Nanoscience 7 255 (2008)


1307. M. Loncaric, J. Sancho-Parramon, M. Pavlovic, H. Zorc, P.Dubcek, A. Turkovic, S. Bernstor�, G. Jakopic, A. Haase, Op-tical and structural characterization of silver islands �lmson glass substrates, Vacuum 84, 188 (2009)

1306. T. Pradeep, Anshup, Noble metal nanoparticles for water pu-ri�cation: A critical review, Thin Solid Films 517, 6441 (2009)

1305. G. S R Raju, H C Jung, J Y Park, C.M. Kanamadi, B K Moon, JH Jeong, S-M Son, J H Kim Synthesis and luminescent pro-perties of Dy3+:GAG nanophosphors Journal of Alloys andCompounds 481, 730 (2009)


1304. Day, P.N., Nguyen, K.A., Pachter, R., Modeling the opticalproperties of small gold nanoclusters using time-dependentdensity functional theory, Proceedings of SPIE - The Interna-tional Society for Optical Engineering 7224, art. no. 7224182009

1303. Martinez, U; Jerratsch, JF; Nilius, N; Giordano, L; Pacchioni, G;Freund, HJ, Tailoring the Interaction Strength between GoldParticles and Silica Thin Films via Work Function Control,Phys. Rev. Lett. 103, 056801 (2009)

1302. Le Guevel, X; Wang, FY; Stranik, O; Nooney, R; Gubala, V;McDonagh, C; MacCraith, BD, Synthesis, Stabilization, andFunctionalization of Silver Nanoplates for Biosensor Appli-cations, J. Phys. Chem. C 113, 16380 (2009)

1301. Maya, F., Muhl, S., Pena, O., Miki-Yoshida, M. Synthesis andcharacterization of silver-carbon nanoparticles produced byhigh-current pulsed arc, Thin Solid Films 518, 1484 (2009)

1300. X Qian, H S. Park The in�uence of mechanical strain on theoptical properties of spherical gold nanoparticles, Journalof the Mechanics and Physics of Solids 58, 330 (2010)



1297. Murai, S., Fujita, K., Meng, X., Tanaka, K. Random disper-sion of metal nanoparticles can form a laser cavity, 2010Chemistry Letters 39 (6), pp. 532-537

1296. Stefania DAgostino and Fabio Della Sala Active Role of Oxi-de Layers on the Polarization of Plasmonic Nanostructures,ACS NANO 4 (7): 4117-4125 JUL 2010

1295. Sangpour, P; Hashemi, F; Moshfegh, AZ Photoenhanced De-gradation of Methylene Blue on Cosputtered M:TiO2 (M =Au, Ag, Cu) Nanocomposite Systems: A Comparative Study,JOURNAL OF PHYSICAL CHEMISTRY C 114 (33): 13955-13961AUG 26 2010

1294. M. Ghanashyam Krishna, Prashant Kumar Non-LithographicTechniques for Nanostructuring of Thin Films and Bulk Sur-faces, Emerging Nanotechnologies for Manufacturing, 2010,Pages 93-130

1293. W Jacak , J Krasnyj , J Jacak , W Donderowicz and L JacakMechanism of plasmon-mediated enhancement of photo-voltaic e�ciency, 2011 J. Phys. D: Appl. Phys. 44 05530

1292. Trinh, L.T.T., Kjoniksen, A.-L., Zhu, K., Knudsen, K.D., Volden,S., Glomm, W.R., Nystrom, B., Low salt-induced aggrega-tion of citrate-covered silver particles in aqueous solutionsof cellulose derivatives, 2009 Colloid and Polymer Science287 (12), pp. 1391-1404

1291. Zhang, ZY; Zhao, YP, The visible extinction peaks of Ag na-nohelixes: A periodic e�ective dipole model, APPLIED PHY-SICS LETTERS 98 (8): Art. No. 083102 FEB 21 2011

1290. Ngo, Y.H., Li, D., Simon, G.P., Garnier, G. Paper surfaces fun-ctionalized by nanoparticles, 2011 Advances in Colloid andInterface Science, 163 (1) pp. 23-38.


1288. Dominguez, CT; Maltez, RL; dos Reis, RMS; de Melo, LSA;de Araujo, CB; Gomes, ASL Dependence of random laseremission on silver nanoparticle density in PMMA �lms con-taining rhodamine 6G, JOURNAL OF THE OPTICAL SOCIETYOF AMERICA B-OPTICAL PHYSICS 28 (5): 1118-1123 MAY 2011

1287. Chen, FF; Dai, SX; Xu, TF; Shen, X; Song, BA; Lin, CG;Wang, XZ; Liu, C; Xu, K; Heo, J Redshi�ed surface plas-ma resonance-induced enhancement of third-order opticalnonlinearities in silver nanoclusters embedded in Bi2O3-B2O3-TiO2 pseudo-ternary glasses, JOURNAL OF THE OPTI-CAL SOCIETY OF AMERICA B-OPTICAL PHYSICS 28 (5): 1283-1288 MAY 2011

1286. Leong, ESP; Liu, YJ; Wang, B; Teng, JH E�ect of Surface Morp-hology on the Optical Properties in Metal-Dielectric-MetalThin Film Systems, ACS APPLIED MATERIALS & INTERFACES 3(4): 1148-1153 APR 2011

1285. Charles, DE; Gara, M; Aherne, D; Ledwith, DM; Kelly, JM;Blau, WJ; Brennan-Fournet, ME Scaling of Surface PlasmonResonances in Triangular Silver Nanoplate Sols for Enhan-ced Refractive Index Sensing, PLASMONICS 6 (2): 351-362JUN 2011

1284. Brenier, R Bifunctional Surfaces with Superhydrophobic andPlasmonic Properties, JOURNAL OF PHYSICAL CHEMISTRY C115 (21): 10544-10549 JUN 2 2011

1283. Szeremeta, J., Nyk, M., Chyla, A., Strek, W., Samoc, M. En-hancement of photoconduction in a conjugated polymer th-rough doping with copper nanoparticles, 2011, Optical Ma-terials 33 (9), pp. 1372-1376

1282. Babapour, A., Yang, B., Bahang, S., Cao, W. High concentra-tion silver/organic or silver/inorganic nanocomposites andtheir optical properties, 2011 Symposium on Photonics andOptoelectronics, SOPO 2011, art. no. 5780541


1281. Ngo, YH; Li, D; Simon, GP; Gamier, G; Paper surfaces fun-ctionalized by nanoparticles, ADVANCES IN COLLOID ANDINTERFACE SCIENCE 163 (1): 23-38 10.1016/j.cis.2011.01.004MAR 15 2011

1280. Wu, PC; Losurdo, M; Kim, TH; Garcia-Cueto, B; Moreno, F;Bruno, G; Brown, AS Ga-Mg Core-Shell Nanosystem for aNovel Full Color Plasmonics, JOURNAL OF PHYSICAL CHE-MISTRY C 115 (28): 13571-13576 10.1021/jp201423r JUL 212011

1279. Dorfs, D; Hartling, T; Miszta, K; Bigall, NC; Kim, MR; Geno-vese, A; Falqui, A; Povia, M; Manna, L Reversible Tunabilityof the Near-Infrared Valence Band Plasmon Resonance inCu(2-x)Se Nanocrystals, JOURNAL OF THE AMERICAN CHE-MICAL SOCIETY 133 (29): 11175-11180 10.1021/ja2016284 JUL27 2011

1278. Albella, P., Garcia-Cueto, B., Gonzalez, F., Moreno, F., Wu,P.C., Kim, T.-H., Brown, A., Yang, Y., Everitt, H.O., Videen,G. Shape matters: Plasmonic nanoparticle shape enhancesinteraction with dielectric substrate, Nano Letters 11 (9), pp.3531-3537 2011

1277. Chen, F., Dai, S., Xu, T., Shen, X., Lin, C., Nie, Q., Liu, C., Heo,J. Surface-plasmon enhanced ultrafast third-order opticalnonlinearities in ellipsoidal gold nanoparticles embeddedbismuthate glasses, Chemical Physics Letters 514 (1-3), pp.79-82 2011

1276. Pullini, D., Carotenuto, G., Palomba, M., Mosca, A., Horse-well, A., Nicolais, L. In situ synthesis of high-density contact-free Ag-nanoparticles for plasmon resonance polystyrenenanocomposites, Journal of Materials Science 46 (24), pp.7905-7911 2011

1275. Kassab, L.R.P., Freitas, L.F., Assumpcao, T.A.A., Da Silva, D.M.,De Araujo, C.B. Frequency upconversion properties of Ag:TeO2-ZnO nanocomposites codoped with Yb3+ and Tm3+ions, Applied Physics B: Lasers and Optics 104 (4), pp. 1029-1034 2011

1274. Rostami, G., Shahabadi, M., Afzali-Kusha, A., Rostami, A.EIT based tunable metal composite spherical nanoparticles,Photonics and Nanostructures - Fundamentals and Applica-tions 10 (1) , pp. 102-111 2012

1273. Brenier, R. Enhancement of light transmission through silvernanoparticles, Journal of Physical Chemistry C 116 (9) , pp.5358-5366, 2012

1272. Zhu, S; Chen, TP; Liu, YC; Liu, Y; Fung, S A quantitative mo-deling of the contributions of localized surface plasmon re-sonance and interband transitions to absorbance of goldnanoparticles, JOURNAL OF NANOPARTICLE RESEARCH, 14(5):10.1007/s11051-012-0856-y MAY 2012

1271. Murai, S., Tokuda, Y., Fujita, K., Tanaka, K. Tuning the wave-length of ampli�ed spontaneous emission coupled to loca-lized surface plasmon, 2012, Applied Physics Letters 101 (3), art. no. 031117

1270. Kelly, J.M., Keegan, G., Brennan-Fournetb, M.E. Triangu-lar silver nanoparticles: Their preparation, functionalisationand properties, 2012, Acta Physica Polonica A 122 (2) , pp.337-345

1269. Babapour, A; Yang, B; Bahang, S; Cao, W Biocide Silver Na-noparticles in Two Di�erent Silica-Based Coating, INTER-NATIONAL CONFERENCE ON FUNDAMENTAL AND APPLIEDSCIENCES 2012 (ICFAS2012), AIP Conference Proceedings1482 681-684; 10.1063/1.4757558 2012

1268. K Wongravee, T Parnklang, P Pienpinijtham, C Lertvachira-paiboon, Y Ozaki, C Thammacharoen, S Ekgasit Chemome-tric analysis of spectroscopic data on shape evolution ofsilver nanoparticles induced by hydrogen peroxide, Phys.Chem. Chem. Phys., 2013, 15, 4183-4189

1267. L M Payne, W Langbein, P Borri Polarization-resolved ex-tinction and scattering cross-section of individual gold na-noparticles measured by wide-�eld microscopy on a largeensemble, Appl. Phys Lett 102 (13) , art. no. 131107 (2013)

1266. Pena-Rodrıguez, O., Pal, U. (2013) Exploiting the Tunable Op-tical Response of Metallic Nanoshells. In UV-VIS and Photo-luminescence Spectroscopy for Nanomaterials Characteri-zation (pp. 99-149). Springer Berlin Heidelberg.

1265. Saion, E., Gharibshahi, E., Naghavi, K. Size-controlled andoptical properties of monodispersed silver nanoparticlessynthesized by the radiolytic reduction method, 2013, In-ternational Journal of Molecular Sciences 14 (4) , pp. 7880-7896

1264. Cheng, J.-W., Chen, F.-F., Dai, S.-X., Xu, Y.-S., Tan, R.-Q. Studyon spectroscopy and third-order optical nonlinear charac-teristics of Ag-nanoparticles embedded bismuthate glass,2013, Spectroscopy and Spectral Analysis 33 (6) , pp. 1642-1646

1263. R Krahne, L Manna, G Morello, A Figuerola, C George, and SDeka NanoScience and Technology, pages 87–131. SpringerBerlin Heidelberg, 2013.

1262. You, J., Leonard, K., Takahashi, Y., Yonemura, H., Yamada, S.E�ects of silver nanoparticles with di�erent sizes on pho-tochemical responses of polythiophene-fullerene thin �lms,2014, Physical Chemistry Chemical Physics 16 (3) , pp. 1166-1173

1261. Hassellov, M., Kaegi, R. Analysis and Characterization of Ma-nufactured Nanoparticles in Aquatic Environments (Chapter


), 2009, Environmental and Human Health Impacts of Na-notechnology

1260. Hu, Y., Qiu, J., Song, Z., Zhou, D Ag2O dependent up-conversion luminescence properties in Tm 3+/Er3+/Yb3+ co-doped oxy�uorogermanate glasses, Journal of Applied Phy-sics Volume 115, Issue 8, 2014, Article number 083512

1259. Zhu, XM; Ma, X; Chang, HM; Tao, HZ; Zhao, XJ Morphologytuning of mono-disperse silver nanoparticles by reactiontemperature adjustment, JOURNAL OF WUHAN UNIVERSITYOF TECHNOLOGY-MATERIALS SCIENCE EDITION, 29 (1):40-43; 10.1007/s11595-014-0864-0 FEB 2014

1258. Pamies, R., Cifre, J.G.H., Espin, V.F., Collado-Gonzalez, M.,Banos, F.G.D., De La Torre, J.G. Aggregation behaviour ofgold nanoparticles in saline aqueous media, (2014) Journalof Nanoparticle Research, 16 (4), art. no. 2376

1257. Krishnan, A. , Das, S., Krishna, S.R., Khan, M.Z.A Multilayernanoparticle arrays for broad spectrum absorption enhan-cement in thin �lm solar cells, Optics Express Volume 22,Issue SUPPL. 3, 2014, Pages A800-A811

1256. Sajid, M.H., Said, Z., Saidur, R., Adikan, F.R.M., Sabri, M.F.M.,Rahim, N.A A time variant investigation on optical propertiesof water based Al2O3 nano�uid, International Communica-tions in Heat and Mass Transfer Volume 50, 2014, Pages108-116


1254. Zhang, P; Li, SB; Liu, CH; Wei, XB; Wu, ZM; Jiang, YD; Chen, ZNear-infrared optical absorption enhanced in black siliconvia Ag nanoparticle-induced localized surface plasmon, NA-NOSCALE RESEARCH LETTERS, 9 10.1186/1556-276X-9-519SEP 22 2014

1253. Said, Z., Saidur, R., Rahim, N.A. Optical properties of metaloxides based nano�uids, International Communications inHeat and Mass Transfer Volume 59, December 01, 2014,Pages 46-54

1252. Sajid Hossain, M.a , Saidur, R.ab , Mohd Sabri, M.F.a , Said,Z.ac , Hassani, S. Spotlight on available optical propertiesand models of nano�uids: A review, Renewable and Sustai-nable Energy Reviews Volume 43, March 2015, Pages 750-762

1251. Dan, H.K., Zhou, D., Wang, R., Jiao, Q., Yang, Z., Song,Z., Yu, X., Qiu, J. E�ects of gold nanoparticles on the en-hancement of upconversion and near-infrared emission inEr3+/Yb3+ co-doped transparent glass-ceramics containingBaF2 nanocrystals, Ceramics International Volume 41, Issue2, 1 March 2015, Pages 2648-2653

1250. Ibragimova, E.M., Mussaeva, M.A., Buzrikov, S. Recombina-tion gamma-luminescence at the nanometal Li - dielectricLiF interfaces, 2015 Radiation Physics and Chemistry 111, pp.40-45

1249. Lopatynskyi, A.M., Lytvyn, V.K., Nazarenko, V.I., (...), Lucas,B.D., Chegel, V.I. Au nanostructure arrays for plasmonic ap-plications: annealed island �lms versus nanoimprint litho-graphy, 2015 Nanoscale Research Letters 10 (1), pp. 1-9

1248. Gupta, R.K., Dubey, M., Li, P.Z., Xu, Q., Pandey, D.S. Size-controlled synthesis of Ag nanoparticles functionalized byheteroleptic dipyrrinato complexes having meso- pyridylsubstituents and their catalytic applications, 2015 InorganicChemistry 54 (6), pp. 2500-2511

1247. Monti, A; Alu, A; Toscano, A; Bilotti, F Optical invisibilitythrough metasurfaces made of plasmonic nanoparticles,JOURNAL OF APPLIED PHYSICS, 117 (12):10.1063/1.4916257MAR 28 2015

1246. Amendola, V., Saija, R., Marago, O.M., Iati, M.A. Superiorplasmon absorption in iron-doped gold nanoparticles, 2015Nanoscale 7 (19), pp. 8782-8792

1245. Sardana, SK; Chava, VSN; Komarala, VK Morphology andoptical properties of sputter deposited silver nanoparti-cles on plain, textured and antire�ection layer coatedtextured silicon, APPLIED SURFACE SCIENCE, 347 651-656;10.1016/j.apsusc.2015.04.145 AUG 30 2015

1244. Monti, A., Alu, A., Toscano, A., Bilotti, F. Optical invisibility th-rough metasurfaces made of plasmonic nanoparticles, 2015Journal of Applied Physics 117 (12), 123103

1243. Xu, Y., Xuan, Y. Design principle for absorption enhance-ment with nanoparticles in thin-�lm silicon solar cells, 2015Journal of Nanoparticle Research 17 (7), 314

1242. Leong, K.Y., Ong, H.C., Amer, N.H., (...), Risby, M.S., Ku Ah-mad, K.Z. An overview on current application of nano�uidsin solar thermal collector and its challenges, 2016 Renewa-ble and Sustainable Energy Reviews 53, pp. 1092-1105

1241. Loncaric, M; Sancho-Parramon, J; Zorc, H; Segota, S; Dub-cek, P; Bernstor�, S Optical and structural characterizationof gold island �lms on glass substrates, THIN SOLID FILMS,591 204-209; 10.1016/j.tsf.2015.04.031 B SEP 30 2015




1238. Yao, H. Monolayer-protected metal nanoclusters with chira-lity: Synthesis, size fractionation, optical activity and asym-metric transformation, 2015 Handbook of Nanoparticles pp.191-216

1237. Song, D., Wang, Y., Jing, D., Geng, J. Investigation and pre-diction of optical properties of alumina nano�uids with dif-ferent aggregation properties, 2016 International Journal ofHeat and Mass Transfer 96, pp. 430-437

1236. Monti, A; Toscano, A; Bilotti, F Exploiting the surface disper-sion of nanoparticles to design optical-resistive sheets andSalisbury absorbers, OPTICS LETTERS, 41 (14):3383-3386;10.1364/OL.41.003383 JUL 15 2016

1235. Ghanashyam Krishna, M., Kumar, P. Non-lithographic tech-niques for nanostructuring of thin �lms and bulk surfaces(Book Chapter) 2014 SEmerging Nanotechnologies for Ma-nufacturing pp. 86-124

1234. Ameer, FS; Varahagiri, S; Benza, DW; Willett, DR; Wen, YM;Wang, FL; Chumanov, G; Anker, JN Tuning Localized Surfa-ce Plasmon Resonance Wavelengths of Silver Nanoparticlesby Mechanical Deformation, 2016 Journal of Physical Che-mistry C 120 (37), pp. 20886-20895

1233. Violi, I.L., Gargiulo, J., Von Bilderling, C., Cortes, E., Stefani,F.D. Light-Induced Polarization-Directed Growth of OpticallyPrinted Gold Nanoparticles, 2016 Nano Letters 16 (10), pp.6529-6533

1232. Thakur, P., Tan, B., Venkatakrishnan, K. Plasmon hybridisa-tion of self-assembled 3d multiphase nano-titanium oxidetowards broadband photon absorption, 2017 Solar EnergyMaterials and Solar Cells 164, pp. 165-174

1231. Madhavi, V., Kondaiah, P., G., M.R. In�uence of silver na-noparticles on titanium oxide and nitrogen doped titaniumoxide thin �lms for sun light photocatalysis , 2018 AppliedSurface Science 436, pp. 708-719

1230. Gupta, RK; Kumar, V; Gundampati, RK; Malviya, M; Hasan,SH; Jagannadham, MV Biosynthesis of silver nanoparti-cles from the novel strain of Streptomyces Sp. BHUMBU-80with highly e�cient electroanalytical detection of hydro-gen peroxide and antibacterial activity, JOURNAL OF EN-VIRONMENTAL CHEMICAL ENGINEERING, 5 (6):5624-5635;10.1016/j.jece.2017.09.029 DEC 2017

1229. Kumar, KN; Kostrzewa, M; Ingram, A; Suresh, B; Reddy,ASS; Gandhi, Y; Piasecki, M; Veeraiah, N Dielectric featu-res, relaxation dynamics and a.c. conductivity studies onAg+ mixed lead arsenate glass ceramics, JOURNAL OF MA-TERIALS SCIENCE-MATERIALS IN ELECTRONICS, 29 (2):1153-1172; 10.1007/s10854-017-8018-8 JAN 2018

1228. Monti, A., Alu, A., Toscano, A., Bilotti, F. Optical metasur-faces based on plasmonic nanoparticles for anti-re�ectioncoatings and transparent absorbers, 2017 11th InternationalCongress on Engineered Material Platforms for Novel Wa-ve Phenomena, Metamaterials 2017, art. no. 8107895, pp.214-216.

1227. Soltani, I., Hraiech, S., Horchani-Naifer, K., Ferid, M.E�ects of silver nanoparticles on the enhancement of upconversion and infrared emission in Er3+/Yb3+co-dopedphosphate glasses, Optical Materials, 77, pp. 161-169 (2018).


Controlled Anisotropic Deformation of Ag Nanoparticlesby Si Ion Irradiation, A. Oliver, J. A. Reyes-Esqueda, J. C.Cheang-Wong, C. E. Roman-Velazquez, A. Crespo-Sosa, L.Rodrıguez-Fernandez, J. A. Seman, Cecilia Noguez, PhysRev B 74, 245425 (2006)

TIPO A (66):

1226. B N. Khlebtsov, A Melnikov, N G. Khlebtsov, On the extinctionmultipole plasmons in gold nanorods, Journal of Quantita-tive Spectroscopy and Radiative Transfer 107, 306 (2007)

1225. Khlebtsov, B. N.; Khlebtsov, N. G, Multipole Plasmons in Me-tal Nanorods: Scaling Properties and Dependence on Parti-cle Size, Shape, Orientation, and Dielectric Environment, J.Phys. Chem. C (2007) 111, 11516

1224. F Ren, G X Cai, X H Xiao, L X Fan, C Liu, D J Fu, J B Wang,C Z Jiang, Ion irradiation induced hollow and sandwichednanoparticles, J. Appl. Phys. 103, 084308 (2008)

1223. R. Giulian, P. Kluth, D.J. Sprouster, L.L. Araujo, A. Byrne andM.C. Ridgway, Swi� heavy ion irradiation of Pt nanocrys-tals embedded in SiO2, Nuclear Instruments and Methodsin Physics Research Section B: Beam Interactions with Ma-terials and Atoms 266, 3158 (2008)

1222. Hasegawa, T.; Itoh, Y.; Kasuya, A. Development of UV-VisibleMultiple-Angle Incidence Resolution Spectrometry and Ap-plication Study of Anisotropic Surface Plasmon Excitationin a Silver Thin Film on a Glass Substrate, Anal. Chem. 805630 (2008)

1221. Mohapatra, S., Mishra, Y.K., Ghatak, J., Kabiraj, D., Avasthi,D.K. Surface plasmon resonance of Ag nanoparticles em-bedded in partially oxidized amorphous Si matrix, Journalof Nanoscience and Nanotechnology 8, 4285 (2008).

1220. JEAN-MICHEL LAMARRE DE?PARTEMENT DE GENIE PHYSIQUE,ECOLE POLYTECHNIQUE DE MONTREAL INSTITUT FRESNEL,CNRS UMR 6133, PROPRIETES OPTIQUES LINEAIRES ET NON-LINEAIRES DE NANOCOMPOSITES ME?TAL/DIELECTRIQUE


ANISOTROPES, THESE PRE?SENTEE EN VUE DE L’OBTENTIONDU DIPLOME DE PHILOSOPHIÆ DOCTOR (GENIE PHYSIQUE)ET DU GRADE DE DOCTEUR EN SCIENCES (PHYSIQUE &SCIENCES DE LA MATIERE) JUIN 2008 UNIVERSITE DE MON-TREAL UNIVERSITE PAUL CEZANNE, AIX-MARSEILLE III

1219. E. A. Dawi, G. Rizza, M. P. Mink, A. M. Vredenberg, and F.H. P. M. Habraken Ion beam shaping of Au nanoparticles insilica: Particle size and concentration dependence, J. Appl.Phys. 105 074305 (2009)

1218. Kluth P, Giulian R, Sprouster DJ, Schnohr CS, Byrne AP, Co-okson DJ, Ridgway MC Energy dependent saturation widthof swi� heavy ion shaped embedded Au nanoparticles, Ap-plied Physics Letters 94 113107 (2009)

1217. Bernabo, M; Pucci, A; Galembeck, F; Leite, CAD; Ruggeri, G.,Thermal- and Sun-Promoted Generation of Silver Nanopar-ticles Embedded into Poly(vinyl alcohol) Films, Macromole-cular Materials and Engineering 294, 256 (2009)

1216. F Ren, X H Xiao, G X Cai, J B Wang, C Z Jiang, Engineeringembedded metal nanoparticles with ion beam technology,Applied Physics A: Materials Science & Processing 96, 317(2009)

1215. Ridgway, MC; Kluth, P; Giulian, R; Sprouster, DJ; Araujo, LL;Schnohr, CS; Llewellyn, DJ; Byrne, AP; Foran, GJ; Cookson, DJ,Changes in metal nanoparticle shape and size induced byswi� heavy-ion irradiation, Nuclear Instruments and Met-hods in Physics Research Section B: Beam Interactions withMaterials and Atoms 267, 931 (2009)

1214. Singh, F; Mohapatra, S; Stolquert, JP; Avasthi, DK; Pivin, JC,Shape deformation of embedded metal nanoparticles byswi� heavy ion irradiation, Nuclear Instruments and Met-hods in Physics Research Section B: Beam Interactions withMaterials and Atoms 267, 936 (2009)

1213. Schmidt, B., Heinig, K.-H., Mucklich, A., Akhmadaliev, C.Swi�-heavy-ion-induced shaping of spherical Ge nanopar-ticles into disks and rods Nuclear Instruments and Methodsin Physics Research B 267 1345 (2009)

1212. Dawi, EA; Rizza, G; Mink, MP; Vredenberg, AM; Habraken,FHPM Ion beam shaping of Au nanoparticles in silica: Parti-cle size and concentration dependence, J . Appl. Phys. 105,074305 (2009)

1211. Awazu, K; Wang, XM; Komatsubara, T; Watanabe, J; Matsu-moto, Y; Warisawa, S; Ishihara, S, The fabrication of alignedpairs of gold nanorods in SiO2 �lms by ion irradiation, Na-notechnology 20, 325303 (2009)

1210. Rizza, G; Dawi, EA; Vredenberg, AM; Monnet, Ion enginee-ring of embedded nanostructures: From spherical to facet-ted nanoparticles, Appl. Phys. Lett. 95, 043105 (2009)

1209. Sprouster, DJ; Giulian, R; Schnohr, CS; Araujo, LL; Kluth, P;Byrne, AP; Foran, GJ; Johannessen, B; Ridgway, MC, fcc-hcpphase transformation in Co nanoparticles induced by swi�heavy-ion irradiation, Phys. Rev. B 80, 115438 (2009)

1208. Mishra, Y.K., Avasthi, D.K., Singh, F., Pivin, J.C., Pippel, E.,Nano-engineering by MeV ion beams, Materials ResearchSociety Symposium Proceedings 1027, 13 (2008)

1207. Mattei, G; Mazzoldi, P; Bernas, H, Metal Nanoclusters forOptical Properties, Materials Science with Ion Beams 116,287 (2010)

1206. E.A. Dawi, A. Klimmer, G. Rizza, P. Ziemann Ion beam sha-ping of Au nanoparticles prepared by micellar technique,Nuclear Instruments and Methods in Physics Research Sec-tion B: Beam Interactions with Materials and Atoms 268,481 (2010)

1205. B Khlebtsov, V Khanadeev, N Khlebtsov, Tunable depolarizedlight scattering from gold and gold/silver nanorods, Phys.Chem. Chem. Phys., 2010, DOI: 10.1039/b925102b (2010)

1204. Li, ZB; Zhou, WY; Kong, XT; Tian, JG Polarization dependen-ce and independence of near-�eld enhancement througha subwavelength circle hole, OPTICS EXPRESS 18 (6): 5854-5860 MAR 15 2010

1203. Krasheninnikov, AV; Nordlund, K, Ion and electronirradiation-induced e�ects in nanostructured materials,JOURNAL OF APPLIED PHYSICS 107 (7): Art. No. 071301 APR1 2010

1202. Kuiri, PK; Joseph, B; Ghatak, J; Lenka, HP; Sahu, G, Tuning Si-ze and Shape of Au Nanoparticles Embedded in Silica Glassby Swi� Heavy Ion Irradiation, ADVANCED SCIENCE LETTERS3 (4): 404-410 DEC 2010

1201. Giulian, R; Kremer, F; Araujo, LL; Sprouster, DJ; Kluth, P; Ficht-ner, PFP; Byrne, AP; Ridgway, MC, Shape transformation ofSn nanocrystals induced by swi� heavy-ion irradiation andthe necessity of a molten ion track, PHYSICAL REVIEW B 82(11): Art. No. 113410 SEP 24 2010

1200. Avasthi, DK; Mishra, YK; Singh, F; Stoquert, JP Ion tracks in si-lica for engineering the embedded nanoparticles, NUCLEARINSTRUMENTS & METHODS IN PHYSICS RESEARCH SECTIONB-BEAM INTERACTIONS WITH MATERIALS AND ATOMS 268(19): 3027-3034 OCT 1 2010

1199. M Kumar, P. K. Kulriya, J. C. Pivin, and D. K. Avasthi Evolutionand tailoring of plasmonic properties in Ag:ZrO2 nanocom-posite �lms by swi� heavy ion irradiation, J. Appl. Phys.109, 044311 (2011)

1198. Stepanov, AL SYNTHESIS OF SILVER NANOPARTICLES IN DIE-LECTRIC MATRIX BY ION IMPLANTATION: A REVIEW, REVIEWSON ADVANCED MATERIALS SCIENCE 26 (1-2): 1-29 DEC 2010


1197. Ridgway, MC; Giulian, R; Sprouster, DJ; Kluth, P; Araujo, LL;Llewellyn, DJ; Byrne, AP; Kremer, F; Fichtner, PFP; Rizza, G;Amekura, H; Toulemonde, M Role of Thermodynamics inthe Shape Transformation of Embedded Metal Nanoparti-cles Induced by Swi� Heavy-Ion Irradiation, PHYSICAL RE-VIEW LETTERS 106 (9): Art. No. 095505 MAR 2 2011

1196. Rizza, G; Attouchi, F; Coulon, PE; Perruchas, S; Gacoin, T;Monnet, I; Largeau, L Rayleigh-like instability in the ion-shaping of Au-Ag alloy nanoparticles embedded within asilica matrix, NANOTECHNOLOGY 22 (17): Art. No. 175305APR 29 2011

1195. R Giulian , L L Araujo , P Kluth , D J Sprouster , C S Schnohr, A P Byrne and M C Ridgway, Swi� heavy ion irradiationof Pt nanocrystals: II. Structural changes and H desorption,2011 J. Phys. D: Appl. Phys. 44 155402

1194. R Giulian , L L Araujo , P Kluth , D J Sprouster , C S Schnohr, A P Byrne and M C Ridgway Swi� heavy ion irradiationof Pt nanocrystals: I. shape transformation and dissolution,2011 J. Phys. D: Appl. Phys. 44 155401

1193. E A Dawi , A M Vredenberg , G Rizza and M ToulemondeIon-induced elongation of gold nanoparticles in silica byirradiation with Ag and Cu swi� heavy ions: track radiusand energy loss threshold, 2011 Nanotechnology 22 215607

1192. Amekura, H; Ishikawa, N; Okubo, N; Ridgway, MC; Giulian,R; Mitsuishi, K; Nakayama, Y; Buchal, C; Mantl, S; Kishimoto,N Zn nanoparticles irradiated with swi� heavy ions at low�uences: Optically-detected shape elongation induced bynonoverlapping ion tracks, PHYSICAL REVIEW B 83 (20): Art.No. 205401 MAY 3 2011

1191. Kumar, H; Ghosh, S; Avasthi, DK; Kabiraj, D; Mucklich, A;Zhou, SQ; Schmidt, H; Stoquert, JP Ion beam-induced sha-ping of Ni nanoparticles embedded in a silica matrix: fromspherical to prolate shape, NANOSCALE RESEARCH LETTERS6 (1): Art. No. 155 DEC 2010

1190. Sprouster, D.J., Giulian, R., Araujo, L.L., Kluth, P., Johan-nessen, B., Cookson, D.J., Ridgway, M.C. Swi� heavy-ionirradiation-induced shape and structural transformation incobalt nanoparticles, 2011 Journal of Applied Physics 109(11), art. no. 113504

1189. H. Amekura, N. Ishikawa, N. Okubo, Y. Nakayama, K. Mit-suishi Asynchronous melting of embedded metal nanoparti-cles and silica matrix for shape elongation induced by swi�heavy ion irradiation, Nuclear Instruments and Methods inPhysics Research Section B: Beam Interactions with Mate-rials and Atoms, Volume 269, Issue 23, 1 December 2011,Pages 2730-2733

1188. Amekura, H; Sele, ML; Ishikawa, N; Okubo, N Thermal sta-bility of embedded metal nanoparticles elongated by swi�heavy ion irradiation: Zn nanoparticles in a molten statebut preserving elongated shapes, NANOTECHNOLOGY, 23(9):10.1088/0957-4484/23/9/095704 MAR 9 2012

1187. Prasad, MH; Kalpana, D; Kumar, NJ Silver Nano Coating onGlass Substrate and Antibacterial Activity of Silver Nanoparticles Synthesised by Arachis hypogaea L. Leaf Extract,CURRENT NANOSCIENCE, 8 (2):280-285; APR 2012

1186. Araujo, L.L., Giulian, R., Sprouster, D.J., Schnohr, C.S., Lle-wellyn, D.J., Johannessen, B., Byrne, A.P., Ridgway, M.C.Structural properties of embedded Ge nanoparticles modi-�ed by swi� heavy-ion irradiation, (2012) Physical ReviewB - Condensed Matter and Materials Physics, 85 (23), art.no. 235417

1185. Liu, HX; Zhang, XD; Shen, YY; Zhang, LH; Wang, J; Zhu, F;Zhang, B; Liu, CL Tailoring the Size Distribution of Ag Nano-particles Embedded in SiO2 by Xe Ion Postirradiation, AP-PLIED PHYSICS EXPRESS, 5 (10):10.1143/APEX.5.105002 OCT2012

1184. Wang, J., Jia, G., Zhang, B., Liu, H., Liu, C. Formation andoptical absorption property of nanometer metallic colloidsin Zn and Ag dually implanted silica: Synthesis of the modi-�ed Ag nanoparticles, 2013, Journal of Applied Physics 113(3) , art. no. 034304

1183. Benzo, P., Bonafos, C., Bayle, M., Carles, R., Cattaneo, L.,Farcau, C., Benassayag, G., Pecassou, B, Muller, D. Contro-lled synthesis of buried delta-layers of Ag nanocrystals fornear-�eld plasmonic e�ects on free surfaces, 2013, Journalof Applied Physics 113 (19) , art. no. 193505

1182. Yang, YT; Zhang, CH; Song, Y; Gou, J; Zhang, LQ; Meng, YC;Zhang, HQ; Ma, YZ Swi� heavy ion irradiation acts as a size�lter to Ag nanoparticles embedded in silica glass, NUCLEARINSTRUMENTS & METHODS IN PHYSICS RESEARCH SECTIONB-BEAM INTERACTIONS WITH MATERIALS AND ATOMS, 30824-27; 2013

1181. Singh, F., Stoquert, J.P., Pivin, J.C. Study of classical thermo-mechanical equations in ultrafast thermo-elastic domain:Electronic sputtering from metal-dielectric nanocomposites,2013, Journal of Physics D: Applied Physics 46 (32) , art. no.325305

1180. Singh, F., Gautam, S.K., Kulriya, P.K., Pivin, J.C. In situ X-raydi�raction study of the growth of silver nanoparticles em-bedded in silica �lm by ion irradiation: The e�ect of volumefraction, 2013, Nuclear Instruments and Methods in PhysicsResearch, Section B: Beam Interactions with Materials andAtoms 311 , pp. 5-9


1179. Amekura, H; Okubo, N; Ishikawa, N; Tsuya, D; Mitsuishi, K;Nakayama, Y; Singh, UB; Khan, SA; Mohapatra, S; Avasthi,DK Swi� heavy ion irradiation of ZnO nanoparticles em-bedded in silica: Radiation-induced deoxidation and sha-pe elongation, Appl. Phys. Lett., 103 (20):10.1063/1.4829475NOV 11 2013

1178. Saikiran, V., Srinivasa Rao, N., Devaraju, G., Pathak, A.P. SHIirradiation �uence and energyloss dependence e�ects onGe NCs with di�erent initial sizes embedded in SiO2, NuclearInstruments and Methods in Physics Research, Section B:Beam Interactions with Materials and Atoms, 323, 15 March2014, Pages 14-18

1177. Stepanov, A.L. Ion-synthesis of silver nanoparticles andtheir optical properties, en Silver Nanoparticles: Properties,Characterization and Applications, January 2011, Pages 169-219

1176. Liu, C., Wang, N., Wang, J., Liu, H., Jia, G., Mu, X. Modi�ca-tions in structure and optical property of Cu nanoparticlesin SiO2 by post heavy ion irradiation, Nuclear Instrumentsand Methods in Physics Research, Section B: Beam Interac-tions with Materials and Atoms Volume 326, 1 May 2014,Pages 28-32

1175. Srivastava, SK; Gangopadhyay, P; Amirthapandian, S; Sai-ram, TN; Basu, J; Panigrahi, BK; Nair, KGM E�ects of high-energy Si ion-irradiations on optical responses of Ag metalnanoparticles in a SiO2 matrix, CHEMICAL PHYSICS LETTERS,607 100-104; 10.1016/j.cplett.2014.05.059 JUN 27 2014

1174. Zhang, Y., Crespillo, M.L., Xue, H., Jin, K., Chen, C.H., Fon-tana, C.L., Graham, J.T., Weber, W.J. New ion beam mate-rials laboratory for materials modi�cation and irradiatione�ects research, Nuclear Instruments and Methods in Phy-sics Research, Section B: Beam Interactions with Materialsand Atoms Volume 338, 1 November 2014, Pages 19-30

1173. Amekura, H., Mohapatra, S., Singh, U.B., Khan, S.A., Kulriya,P.K., Ishikawa, N., Okubo, N., Avasthi, D.K. Shape elonga-tion of Zn nanoparticles in silica irradiated with swi� heavyions of di�erent species and energies: Scaling law and someinsights on the elongation mechanism, Nanotechnology Vo-lume 25, Issue 43, 31 October 2014, Article number 435301

1172. Leino, AA; Djurabekova, F; Nordlund, K Radiation e�ectsin nanoclusters embedded in solids, EUROPEAN PHYSICALJOURNAL B, 87 (10):10.1140/epjb/e2014-50359-x OCT 202014

1171. Amekura, H; Okubo, N; Ishikawa, N Optical birefringenceof Zn nanoparticles embedded in silica induced by swi�heavy-ion irradiation, OPTICS EXPRESS, 22 (24):29888-29898; 10.1364/OE.22.029888 DEC 1 2014

1170. Amekura, H; Kono, K; Okubo, N; Ishikawa, N Shape elon-gation of embedded Zn nanoparticles induced by swi�heavy ion irradiation: A SAXS study, PHYSICA STATUSSOLIDI B-BASIC SOLID STATE PHYSICS, 252 (1):165-169;10.1002/pssb.201400138 JAN 2015

1169. Rizza, G. From ion-hammering to ion-shaping: An histori-cal overview, Journal of Physics: Conference Series Volume629, Issue 1, 13 July 2015, Article number 012005 CIRIL: 30Years of Interdisciplinary Research at GANIL Meeting; Caen;France; 17 October 2013 through ; Code 113220

1168. Chervinskii, S; Drevinskas, R; Karpov, DV; Beresna, M; Li-povskii, AA; Svirko, YP; Kazansky, PG Revealing the nano-particles aspect ratio in the glass-metal nanocompositesirradiated with femtosecond laser, SCIENTIFIC REPORTS, 510.1038/srep13746 SEP 8 2015

1167. Coulon, P.-E., Amici, J., Clochard, M.-C., (...), Largeau, L., Riz-za, G. Ion-shaping of embedded gold hollow nanoshells intovertically aligned prolate morphologies, 2016 Scienti�c Re-ports 6, 21116

1166. Wolf, S; Rensberg, J; Johannes, A; Thomae, R; Smit, F; Ne-veling, R; Moodley, M; Bierschenk, T; Rodriguez, M; Afra,B; Bin Hasan, S; Rockstuhl, C; Ridgway, M; Bharuth-Ram, K;Ronning, C Shape manipulation of ion irradiated Ag nano-particles embedded in lithium niobate, NANOTECHNOLOGY,27 (14):10.1088/0957-4484/27/14/145202 APR 8 2016

1165. Rizza, G., Ridgway, M.C. Ion-shaping of nanoparticles, 2016Springer Series in Surface Sciences 61, pp. 443-473

1164. Amekura, H Shape Elongation of Embedded Metal Nanopar-ticles Induced by Irradiation with Swi� Heavy Ions / ClusterIons, 2016 IEEE NANOTECHNOLOGY MATERIALS AND DEVI-CES CONFERENCE (NMDC), 2016.

1163. Amekura, H., Okubo, N., Tsuya, D., Ishikawa, N. Countere-vidence to the ion hammering scenario as a driving forcefor the shape elongation of embedded nanoparticles, (2017)AIP Advances, 7 (8), art. no. 085304

1162. Epie, E.N., Scott, D., Chu, W.K. Manipulating the optical pro-perties of dual implanted Au and Zn nanoparticles in sapp-hire, 2017 Photonics and Nanostructures - Fundamentalsand Applications, 27, pp. 17-23.


TIPO B (27):


1160. Crespo-Sosa, A., Schaaf, P., Reyes-Esqueda, J.A., Seman-Harutinian, J.A., Oliver, A., Excimer laser absorption by me-tallic nano-particles embedded in silica, Journal of PhysicsD: Applied Physics, 40 (7), art. no. 008, pp. 1890-1895(2007)

1159. V. Rodriguez-Iglesias, H.G. Silva-Pereyra, J.C. Cheang-Wong,J.A. Reyes-Esqueda, L. Rodriguez-Fernandez, A. Crespo-Sosa, G. Kellerman and A. Oliver, MeV Si ion irradiation ef-fects on the optical absorption properties of metallic nano-particles embedded in silica, Nuclear Instruments and Met-hods in Physics Research Section B: Beam Interactions withMaterials and Atoms 266, 3138 (2008)

1158. Torres-Torres, C; Reyes-Esqueda, JA; Cheang-Wong, JC;Crespo-Sosa, A; Rodriguez-Fernandez, L; Oliver, A, Opti-cal third-order nonlinearity by nanosecond and picosecondpulses in Cu nanoparticles in ion-implanted silica, Journalof Applied Physics 104 014306 (2008)

1157. Rangel-Rojo, R., McCarthy, J., Bookey, H.T., Kar, A.K.,Rodriguez-Fernandez, L., Cheang-Wong, J.C., Crespo-Sosa,A., Lopez-Suarez, A., Oliver, A., Rodriguez-Iglesias, V., Silva-Pereyra, H.G. Anisotropy in the nonlinear absorption ofelongated silver nanoparticles in silica, probed by femto-second pulses, Optics Communications 282, 1909 (2009)



1154. V. Rodriguez-Iglesias, O. Pena-Rodrguez, H. G. Silva-Pereyra,L. Rodrguez-Fernndez, G. Kellermann, J. C. Cheang-Wong, A.Crespo-Sosa and A. Oliver, Elongated Gold NanoparticlesObtained by Ion Implantation in Silica: Characterization andT-Matrix Simulations, J. Phys. Chem. C 114, 746 (2010).

1153. Rodriguez-Iglesias, V.; Pena-Rodriguez, O.; Silva-Pereyra, H.G.; Rodriguez-Fernandez, L.; Cheang-Wong, J. C.; Crespo-Sosa, A.; Reyes-Esqueda, J. A.; Oliver, A. Tuning the aspectratio of silver nanospheroids embedded in silica, OPTICSLETTERS 35, 703 (2010)

1152. Silva-Pereyra, HG; Arenas-Alatorre, J; Rodriguez-Fernandez,L; Crespo-Sosa, A; Cheang-Wong, JC; Reyes-Esqueda, JA;

Oliver, A High stability of the crystalline con�guration ofAu nanoparticles embedded in silica under ion and elec-tron irradiation, JOURNAL OF NANOPARTICLE RESEARCH 12(5): 1787-1795 JUN 2010

1151. R C Fernandez-Hernandez , R Gleason-Villagran , C Torres-Torres , J C Cheang-Wong , A Crespo-Sosa , L Rodriguez-Fernandez , A Lopez-Suarez , R Rangel-Rojo , A Oliver and JA Reyes-Esqueda, Nonlinear optical spectroscopy of isotro-pic and anisotropic metallic nanocomposites, 2011 J. Phys.:Conf. Ser. 274 012074

1150. Rodriguez-Fernandez, L Particle Accelerator Applications:Ion and Electron Irradiation in Materials Science, Biologyand Medicine, 6TH MEXICAN NUCLEAR PHYSICS SCHOOL1271: 159-179 2010

1149. Rocha-Mendoza, I., Rangel-Rojo, R., Rodrıguez-Fernandez,L., Oliver, A. Second-order nonlinear response of composi-tes containing aligned elongated silver nanoparticles, 2011Optics Express 19 (22), pp. 21575-21587

1148. Tamayo-Rivera, L; Fernandez-Hernandez, RC; Rodriguez-Fernandez, L; Rangel-Rojo, R; Oliver, A; Reyes-Esqueda, JAWavelength-varying third-order nonlinear optical responseof Ag nanoparticles-Si quantum dots integrated plasmonicsystem, OPTICAL MATERIALS EXPRESS, 1 (5):980-989; SEP 12011


1146. Bornacelli, J; Reyes-Esqueda, JA; Rodriguez-Fernandez, L;Silva-Pereyra, HG; Oliver, A Photoluminescence incrementof Si nanocrystals in presence of Ag nanoparticles, 22NDCONGRESS OF THE INTERNATIONAL COMMISSION FOR OP-TICS: LIGHT FOR THE DEVELOPMENT OF THE WORLD, 801110.1117/12.901992 2011

1145. Mota-Santiago, P.-E., Crespo-Sosa, A., Jimenez-Hernandez,J.-L., Silva-Pereyra, H.-G., Reyes-Esqueda, J.-A., Oliver, A. Si-ze characterisation of noble-metal nano-crystals formed insapphire by ion irradiation and subsequent thermal annea-ling, 2012, Applied Surface Science 259 , pp. 574-581

1144. Fernandez-Hernandez, RC; Gleason-Villagran, R; Torres-Torres, C; Rodriguez-Fernandez, L; Crespo-Sosa, A; Cheang-Wong, JC; Lopez-Suarez, A; Rangel-Rojo, R; Oliver, A;Reyes-Esqueda, JA On the physical contributions to the


third-order nonlinear optical response in plasmonic na-nocomposites, JOURNAL OF OPTICS, 14 (12):10.1088/2040-8978/14/12/125203 DEC 2012

1143. Tamayo-Rivera, L., Rodriguez-Fernandez, L., Rangel-Rojo, R.,Oliver, A., Reyes-Esqueda, J.A. Nonlinear optical study ofAg nanoparticles-Si quantum dots plasmonic nanostructu-red system, 2012, 2012 Conference on Lasers and Electro-Optics, CLEO 2012 , art. no. 6326678

1142. Bornacelli, J., Reyes Esqueda, J.A., Rodriguez Fernandez, L.,Oliver, A. Improving passivation process of Si nanocrystalsembedded in SiO Using Metal Ion Implantation, 2013, Jour-nal of Nanotechnology 2013 , art. no. 736478

1141. Licea-Rodriguez, J., Rocha-Mendoza, I., Rangel-Rojo, R.,Rodriguez-Fernandez, L., Oliver, A. Femtosecond laser wri-ting over silver nanoparticles system embedded in silicausing nonlinear microscopy, 2014, Optical Materials 36 (3), pp. 682-686

1140. Tamayo-Rivera, L., Rodriguez-Fernandez, L., Rangel-Rojo, R.,Oliver, A., Reyes-Esqueda, J.A. Nonlinear optical study ofAg nanoparticles-si quantum dots plasmonic nanostructu-red system, 2012, CLEO: Science and Innovations, CLEO-SI2012 , pp. JW4A.52

1139. Can-Uc, B; Rangel-Rojo, R; Rodriguez-Fernandez, L; Oliver,A Polarization selectable nonlinearities in elongated silvernanoparticles embedded in silica, OPTICAL MATERIALS EX-PRESS, 3 (12):2012-2021; 2013

1138. Sanchez-Dena, O., Mota-Santiago, P., Tamayo-Rivera, L.,Crespo-Sosa, A., Oliver, A., Reyes-Esqueda, J.A. Size-andshape-dependent nonlinear optical response of au nano-particles embedded in sapphire, (2013) Optics InfoBaseConference Papers.

1137. Can-Uc, B., Rangel-Rojo, R., Rodriguez-Fernandez, L., Oliver,A. Non-thermal polarization selectable nonlinear responseof elongated ag nanoparticles embedded in SiO2 studiedby the Z-scan technique, (2013) Optics InfoBase ConferencePapers.

1136. Can-Uc, B., Rangel-Rojo, R., Marquez, H., Rodriguez-Fernandez, L., Oliver, A. Nanoparticle containing chan-nel waveguides produced by a multi-energy masked ion-implantation process, 2015 Optics Express 23 (3), pp. 3176-3185

1135. Can-Uc, B; Rangel-Rojo, R; Pena-Ramirez, A; de Araujo, CB;Baltar, HTMCM; Crespo-Sosa, A; Garcia-Betancourt, ML; Oli-ver, A Nonlinear optical response of platinum nanoparticlesand platinum ions embedded in sapphire, OPTICS EXPRESS,24 (9):9955-9965; 10.1364/OE.24.009955 MAY 2 2016

1134. Crespo-Sosa, A., Mota-Santiago, P.E., Jimenez-Hernandez,J.L., (...), Reyes-Esqueda, J.A., Oliver, A. Metallic nanoparticles embedded in sapphire, 2015 Materials ResearchSociety Symposium Proceedings 1769, pp. 1-10


Circular dichroism simulated spectra of chiral goldnanoclusters: A dipole approximation, C. Roman-Velazquez,Cecilia Noguez, and I.L. Garzon, J Phys Chem B (Letter)107, 12035 (2003)

TIPO A (80):

1133. Negishi, Y.; Takasugi, Y.; Sato, S.; Yao, H.; Kimura, K.; Tsu-kuda, T.; Magic-Numbered Aun Clusters Protected by Glu-tathione Monolayers (n = 18, 21, 25, 28, 32, 39): Isolationand Spectroscopic Characterization, J. Am. Chem. Soc. 126,6518 (2004)

1132. Katsuyuki Nobusada, Electronic Structure and Photochemi-cal Properties of a Monolayer-Protected Gold Cluster, J.Phys. Chem. B, 108 11904 (2004)

1131. Negishi, Y.; Nobusada, K.; Tsukuda, T., Glutathione-ProtectedGold Clusters Revisited: Bridging the Gap between Gold(I)-Thiolate Complexes and Thiolate-Protected Gold Nanocrys-tals , J. Am. Chem. Soc. 127, 5261 (2005)

1130. G. Barcaro, A. Fortunelli, The Interaction of Coinage MetalClusters with the MgO(100) Surface, J. Chem. Theory andComput. 1, 972 (2005)

1129. Hiroshi Yao, Kanae Miki, Naoki Nishida, Akito Sasaki, andKeisaku Kimura, Large Optical Activity of Gold NanoclusterEnantiomers Induced by a Pair of Optically Active Penicilla-mines, J. Am. Chem. Soc. 127, 15536 (2005)

1128. Goldsmith, MR; George, CB; Zuber, G; Naaman, R; Waldeck,DH; Wipf, P; Beratan, DN, The chiroptical signature of achiralmetal clusters induced by dissymmetric adsorbates, PhysChem Chem Phys 8, 63 (2006)

1127. Yasushi Yanagimoto, Yuichi Negishi, Hisashi Fujihara, andTatsuya Tsukuda, Chiroptical Activity of BINAP-Stabilized Un-decagold Clusters, J. Phys. Chem. B 110, 11611 (2006)

1126. Qi H, Hegmann T.; Formation of periodic stripe patterns innematic liquid crystals doped with functionalized gold na-noparticles, J of Materials Chemistry 16, 4197 (2006)

1125. Iwasa, T.; Nobusada, K.; Theoretical Investigation of Optimi-zed Structures of Thiolated Gold Cluster [Au25(SCH3)18]+, J.Phys. Chem. C 111, 45 (2007)

1124. A. Eisfeld, R. Kniprath, and J. S. Briggs, Theory of the ab-sorption and circular dichroism spectra of helical molecularaggregates, J. Chem. Phys. 126, 104904 (2007)


1123. Nishida, N.; Yao, H.; Ueda, T.; Sasaki, A.; Kimura, K. Synthe-sis and Chiroptical Study of D/L-Penicillamine-Capped SilverNanoclusters, Chem. Mater. 19, 2831 (2007)

1122. Shichibu Y, Negishi Y, Tsunoyama H, Kanehara M, Teranis-hi T, Tsukuda T, Extremely high stability of glutathionate-protected Au-25 clusters against core etching, Small 3, 835(2007)

1121. H. Behar-Levy, O. Neumann, R. Naaman, D. Avnir, ChiralityInduction in Bulk Gold and Silver, Advanced Materials 19,1207 (2007)

1120. Ikeda, K.; Kobayashi, Y.; Negishi, Y.; Seto, M.; Iwasa, T.; No-busada, K.; Tsukuda, T.; Kojima, N., Thiolate-Induced Struc-tural Reconstruction of Gold Clusters Probed by 197AuMossbauer Spectroscopy, J. Am. Chem. Soc. 129, 7230(2007)

1119. Bovet, N.; McMillan, N.; Gadegaard, N.; Kadodwala, M., Su-pramolecular Assembly Facilitating Adsorbate-Induced Chi-ral Electronic States in a Metal Surface, J. Phys. Chem. B111,10005 (2007)

1118. Yao, H.; Fukui, T.; Kimura, K.; Chiroptical Responses of D-/L-Penicillamine-Capped Gold Clusters under Perturbations ofTemperature Change and Phase Transfer, J. Phys. Chem. C111, 14968 (2007)

1117. Hegmann, T.; Qi, H. (UNIVERSITY OF MANITOBA), Metal Na-noparticle and use thereof for inducing chirality in liquidcrystal phases, Patent Cooperation Treaty Application, Jul2007 patno:WO07079585

1116. Woldeghebriel, H., Kshirsagar, A.; How cationic gold clustersrespond to a single sulfur atom, (2007) Journal of ChemicalPhysics 127, art. no. 224708

1115. T. Tsukuda, H. Hironori, Y. Negishi, Systematic sintesys ofmonolayer proected gold clusters with well-de�ned chemi-cal composition, page 373, in Metal Nanoclusters in Cataly-sis and Materials Science: The Issue of Size Control, Editors:B. Corain, G. Schmid, N Toshima , Elsevier Science (2007)

1114. Qi H, ONeil J, Hegmann T, Chirality transfer in nematic liquidcrystals doped with (S)-naproxen-functionalized gold nano-clusters: an induced circular dichroism study, J of MaterialsChemistry 18, 374 (2008)



1111. Chaki, N. K.; Negishi, Y.; Tsunoyama, H.; Shichibu, Y.; Tsuku-da, T. Ubiquitous 8 and 29 kDa Gold:Alkanethiolate ClusterCompounds: Mass-Spectrometric Determination of Molecu-lar Formulas and Structural Implications, J. Am. Chem. Soc.130, 8608 (2008)

1110. Pyykko, P. Theoretical chemistry of gold. III, Chemical So-ciety Reviews 37, 1967 (2008)

1109. Zhu MZ, Eckenho� WT, Pintauer T, Jin, RC; Conversion ofanionic [Au-25(SCH2CH2Ph)(18)](-) cluster to charge neutralcluster via air oxidation, J. Phys. Chem. C 112, 14221 (2008)

1108. Qi, H.; Hegmann, T. Postsynthesis Racemization and Pla-ce Exchange Reactions. Another Step To Unravel the Originof Chirality for Chiral Ligand-Capped Gold Nanoparticles, J.Am. Chem. Soc. 130, 14201 (2008)

1107. Yao, H.; Fukui, T.; Kimura, K. Asymmetric Transformationof Monolayer-Protected Gold Nanoclusters via Chiral PhaseTransfer, J. Phys. Chem. C. 112 16281 (2008)


1105. Lin CAJ, Yang TY, Lee CH et al. Synthesis, Characteriza-tion, and Bioconjugation of Fluorescent Gold Nanoclusterstoward Biological Labeling Applications, ACS Nano 3, 395(2009)

1104. Ho, S., Critchley, K., Lilly, G.D., Shim, B., Kotov, N.A. Free �owelectrophoresis for the separation of CdTe nanoparticles,Journal of Materials Chemistry 19, 1390 (2009)

1103. Wu, Z., Gayathri, C., Gil, R.R., Jin, R., Probing the structure andcharge state of glutathione-capped Au 25(SG)18 clusters byNMR and mass spectrometry, Journal of the American Che-mical Society 131, 6535 (2009)

1102. A Vargas, G Santarossa, M Iannuzzi, and A Baiker, Flu-xionality of gold nanoparticles investigated by Born-Oppenheimer molecular dynamics, Phys. Rev. B 80, 195421(2009)

1101. C-W Chen, C-H Wang, C-M Wei, C-YiHsieh, Y-T Chen, Y-FChen, C-W Lai, C-L Liu, C-C Hsieh, P-T Chou, Highly Sen-sitive Emission Sensor Based on Surface Plasmon Enhan-ced Energy Transfer between Gold Nanoclusters and SilverNanoparticles, J. Phys. Chem. C 114, 799 (2010)

1100. Rongchao Jin, Quantum sized, thiolate-protectedgold nanoclusters, Nanoscale, 2010, 2, 343-362 DOI:10.1039/b9nr00160c


1099. Lin, C.-A.J., Lee, C.-H., Hsieh, J.-T., Wang, H.-H., Li, J.K., Shen,J.-L., Chan, W.-H., (...), Chang, W.H. Synthesis of �uorescentmetallic nanoclusters toward biomedical application: Recentprogress and present challenges, Journal of Medical andBiological Engineering 29, 276 (2009)

1098. J George, K. G Thomas Surface Plasmon Coupled CircularDichroism of Au Nanoparticles on Peptide Nanotubes, J. Am.Chem. Soc. 132, 2502 (2010)

1097. Govorov, AO; Fan, ZY; Hernandez, P; Slocik, JM; Naik, RR,Theory of Circular Dichroism of Nanomaterials ComprisingChiral Molecules and Nanocrystals: Plasmon Enhancement,Dipole Interactions, and Dielectric E�ects, NANO LETTERS10 (4): 1374-1382 APR 2010

1096. Lin, C.-A.J., Lee, C.-H., Hsieh, J.-T., Yu, W.-C., Yang, H.-Z., Li,J.K., Sperling, R., (...), Chang, W.H. Synthesis and surface mo-di�cation of highly �uorescent gold nanoclusters and theirexploitation for cellular labeling, 2010 Progress in Biomedi-cal Optics and Imaging - Proceedings of SPIE 7575, art. no.757506

1095. Autschbach, J Computing Chiroptical Properties with First-Principles Theoretical Methods: Background and IllustrativeExamples, CHIRALITY 21 (1E): E116-E152 2010

1094. Z Fan, A O. Govorov Plasmonic Circular Dichroism of ChiralMetal Nanoparticle Assemblies, NANO LETTERS 10 (7): 2580-2587 JUL 2010

1093. Yao, H; Saeki, M; Kimura, K, Induced Optical Activity inBoronic-Acid-Protected Silver Nanoclusters by Complexa-tion with Chiral Fructose, JOURNAL OF PHYSICAL CHEMISTRYC 114 (38): 15909-15915 SEP 30 2010

1092. Morales-Saavedra, O.G., Zanella, R. Structural and pho-tophysical evaluation of Au-NPs/SiO2-based inorganic-inorganic sonogel hybrid composites, (2010) Materials Che-mistry and Physics, 124 (1) pp. 816-830.

1091. Zhang, M.-X., Cui, R., Tian, Z.-Q., Zhang, Z.-L., Pang, D.-W.Kinetics-controlled formation of gold clusters using a quasi-biological system, (2010) Advanced Functional Materials, 20(21) pp. 3673-3677.

1090. Oh, H.S., Liu, S., Jee, H., Baev, A., Swihart, M.T., Prasad, P.N.Chiral poly(�uorene-alt-benzothiadiazole) (PFBT) and na-nocomposites with gold nanoparticles: Plasmonically andstructurally enhanced chirality, (2010) Journal of the Ame-rican Chemical Society, 132 (49) pp. 17346-17348.

1089. Li, Y., Yu, D., Dai, L., Urbas, A., Li, Q. Organo-soluble chiralthiol-monolayer-protected gold nanorods, (2011) Langmuir,27 (1) pp. 98-103.

1088. Autschbach, J., Nitsch-Velasquez, L., Rudolph, M. Time-dependent density functional response theory for electro-nic chiroptical properties of chiral molecules, (2011) Topicsin Current Chemistry, 298 pp. 1-98.

1087. Xia, YH; Zhou, YL; Tang, ZY Chiral inorganic nanoparticles:origin, optical properties and bioapplications, NANOSCALE3 (4): 1374-1382 2011

1086. Qi, H; Shopsowitz, KE; Hamad, WY; MacLachlan, MJ ChiralNematic Assemblies of Silver Nanoparticles in MesoporousSilica Thin Films, JOURNAL OF THE AMERICAN CHEMICAL SO-CIETY 133 (11): 3728-3731 MAR 23 2011

1085. Hendler, N; Fadeev, L; Mentovich, ED; Belgorodsky, B; Gozin,M; Richter, S Bio-inspired synthesis of chiral silver nanopar-ticles in mucin glycoprotein-the natural choice, CHEMICALCOMMUNICATIONS 47 (26): 7419-7421 2011


1083. Guerrero-Martinez, A; Alonso-Gomez, JL; Auguie, B; Cid,MM; Liz-Marzan, LM From individual to collective chiralityin metal nanoparticles, NANO TODAY 6 (4): 381-400 2011

1082. Zhu, MZ; Qian, HF; Meng, XM; Jin, SS; Wu, ZK; Jina, RC ChiralAu(25) Nanospheres and Nanorods: Synthesis and Insightinto the Origin of Chirality, NANO LETTERS 11 (9): 3963-3969 2011

1081. Sun, Y; Balasubramanian, K; Rao, TUB; Pradeep, T First Prin-ciples Studies of Two Luminescent Molecular Quantum Clus-ters of Silver, Ag(7)(H(2)MSA)(7) and Ag(8)(H(2)MSA)(8), Ba-sed on Experimental Fluorescence Spectra, JOURNAL OFPHYSICAL CHEMISTRY C 115 (42): 20380-20387 2011

1080. Wang, C., Li, J., Amatore, C., Chen, Y., Jiang, H., Wang, X.-M.Gold nanoclusters and graphene nanocomposites for drugdelivery and imaging of cancer cells, 2011 Angewandte Che-mie - International Edition 50 (49), pp. 11644-11648

1079. Zhou, Y., Zhu, Z., Huang, W., Liu, W., Wu, S., Liu, X., Gao, Y.,Zang, W., Tang, Z. Optical coupling between chiral biomo-lecules and semiconductor nanoparticles: Size-dependentcircular dichroism absorption 2011 Angewandte Chemie -International Edition 50 (48), pp. 11456-11459

1078. Yao, H; Saeki, M; Sasaki, A Boronic Acid-Protected GoldClusters Capable of Asymmetric Induction: Spectral De-convolution Analysis of Their Electronic Absorption andMagnetic Circular Dichroism, LANGMUIR, 28 (8):3995-4002;10.1021/la204731a FEB 28 2012

1077. Tsukuda, T. Toward an atomic-level understanding of size-speci�c properties of protected and stabilized gold clusters,


Bulletin of the Chemical Society of Japan 85 (2) , pp. 151-168,2012

1076. Samanta, P.K., Periyasamy, G., Manna, A.K., Pati, S.K.Computational studies on structural and optical propertiesof single-stranded DNA encapsulated silver/gold clusters,(2012) Journal of Materials Chemistry, 22 (14) pp. 6774-6781.

1075. Saumya, V., Rao, T.P. Copper quantum cluster-polypyrrolecomposite �lm based zero current chronopotentiometricsensor for glutathione, 2012, Analytical Methods 4 (7) , pp.1976-1982

1074. Kim, J.M., Chang, S.-M., He, X.-K., Kim, W.-S. Developmentof real-time sensitive chiral analysis technique using quartzcrystal analyzer, 2012, Sensors and Actuators, B: Chemical171-172 , pp. 478-485

1073. Wang, JL; Zhang, G; Li, QW; Jiang, H; Liu, CY; Amatore, C;Wang, XM In vivo self-bio-imaging of tumors through in si-tu biosynthesized �uorescent gold nanoclusters, SCIENTIFICREPORTS, 3 10.1038/srep01157 JAN 29 2013

1072. Melnikau, D., Savateeva, D., Gun’Ko, Y.K., Rakovich, Y.P.Strong enhancement of circular dichroism in a hybrid ma-terial consisting of J-aggregates and silver nanoparticles,2013, Journal of Physical Chemistry C 117 (26) , pp. 13708-13712

1071. Choudhary, A., Singh, G., Biradar, A.M Advances in goldnanoparticle-liquid crystal composites, Nanoscale Volume6, Issue 14, 21 July 2014, Pages 7743-7756


1069. Rathinaraj, P; Lee, K; Park, SY; Kang, IK Targeted images ofKB cells using folate-conjugated gold nanoparticles, Nanos-cale Research Letters, 10 10.1186/s11671-014-0725-y JAN 212015

1068. Rathinaraj, P., Al-Jumaily, A.M., Huh, D.S. Internalization:Acute apoptosis of breast cancer cells using Herceptin-Immobilized gold nanoparticles, Breast Cancer: Targets andTherapy Volume 7, 10 February 2015, Pages 51-58

1067. Tanaka, S.-I., Inouye, Y. Synthesis of �uorescent platinumnanoclusters for biomedical imaging, 2014 RSC Smart Ma-terials 2014-January (7), pp. 391-406

1066. Rathinaraj, P., Lee, K., Choi, Y., (...), Kwon, O.H., Kang, I.-K. Targeting and molecular imaging of HepG2 cells usingsurface-functionalized gold nanoparticles, 2015 Journal ofNanoparticle Research 17 (7), 311

1065. Pradhani, A., Halder, O., Nozaki, S., Rath, S. Raman modes,dipole moment and chirality in periodically positioned Au8clusters, 2015 RSC Advances 5 (80), pp. 65208-65213

1064. Rathinaraj, P; Al-Jumaily, AM; Huh, DS Internalization:acute apoptosis of breast cancer cells using herceptin-immobilized gold nanoparticles, BREAST CANCER-TARGETSAND THERAPY, 7 51-58; 10.2147/BCTT.S69834 2015

1063. Fan, Z., Zhang, H., Schreiber, R., (...), Gunko, Y.K., Govorov,A.O. Chiral nanostructures with plasmon and exciton reso-nances, (Book Chapter) 2014 in Singular and Chiral Nano-plasmonics pp. 1-55

1062. Kumar, J., Kawai, T., Nakashima, T. Circularly polarized lumi-nescence in chiral silver nanoclusters, 2017 Chemical Com-munications 53 (7), pp. 1269-1272

1061. Muthoosamy, K., Bai, R., Manickam, S. Graphene metal na-noclusters in cutting-edge theranostics nanomedicine ap-plications, 2017 Advanced Structured Materials 66, pp. 429-477

1060. Dou, B.-X., Xin, J.-Y., Fan, H.-C., Wang, Y., Xia, C.-G. Fun-ctional self-assembly gold nanoparticle modi�ed electro-des and application in the �eld of biosensors with enzymeimmobilization, 2016 Journal of Molecular Catalysis 30(4),pp. 391-400


1058. Wang, XA; Tang, ZY Circular Dichroism Studies on PlasmonicNanostructures, SMALL, 13 (1):10.1002/smll.201601115 JAN 42017

1057. Ding, W., Guan, L., Han, J., Mangala, R., Luo, Z. Fluorescen-ce chemosensing of water-soluble Ag14 nanoclusters for ly-sozyme and Hg2+ ions, 2017 Sensors and Actuators, B: Che-mical 250, pp. 364-371


1055. Yan, J., Chen, Y., Hou, S., Chen, J., Meng, D., Zhang, H., Fan,H., Ji, Y., Wu, X. Fabricating chiroptical starfruit-like Au na-noparticles: Via interface modulation of chiral thiols, (2017)Nanoscale, 9 (31) pp. 11093-11102.

1054. Yeom, J; Santos, US; Chekini, M; Cha, M; de Moura, AF; Ko-tov, NA Chiromagnetic nanoparticles and gels, 2018 Science359, Issue 6373, 19 January 2018, Pages 309-314

TIPO B (2):


1053. X. Lopez-Lozano, L. A. Perez, and I. L. Garzon, Enantiospe-ci�c Adsorption of Chiral Molecules on Chiral Gold Clusters,Phys Rev Lett 97, 233401 (2006)



Theoretical and experimental optical spectroscopy studyof hydrogen adsorption at Si(111)-7×7, Cecilia Noguez, C.Beitia, W. Preyss, A.I. Shkrebtii, M. Roy, Y. Borensztein y R.Del Sole, Phys Rev Lett 76, 4923 – 4926 (1996)

TIPO A (49):

1051. Que J.Z., Radny M.W., Smith P.V.K., Hartree-Fock-DFT clustercalculations of the Si(111)-7×7:H system, Surf. Sci. 391, 161– 175 (1997).

1050. Melinon P., Keghelian P. PrevelB. Perez A., Guirand G. Le-Brusq J., Lerme S., Fellarin M. Broyer M., Nanostructuredsilicon �lms obtained by neutral cluster desposition, Jour-nal of Chem. Phys. 107, 10278 – 10287 (1997).

1049. Wormeeter H. Wentiuk D.J., van Silfhout A., Isotropic andanisotropic contributions to the optical re�ection of Si(001)-2×1, Phys Rev. B 56, 3617 – 3620 (1997).

1048. Power J.R., Weightman P., Omahony J.D. Strong Optical An-isotropy of the single-domain 5×2-Au Reconstruction onvicinal Si(111), Phys. Rev. B 5635871997

1047. Electronic materialsCurrent Opinion in Solid State and Ma-terials Science, Volume 2, Issue 1, February 1997, 101-121.

1046. D. E. Aspnes, Real-time optical analysis and control of se-miconductor epitaxy: Progress and opportunity, Solid StateCommunications 101, (1997), 85-92.

1045. Rastertunnelmikroskopie in Echtzeit an Si(111)7x7 Diplomar-beit von Alexander Kraus aus Halle (Saale) Martin-Luther-Universitat Halle-Wittenberg Fachgruppe Ober�achen- undGrenz�achenphysik 1997

1044. Shioda R., van der Weide J. Observation of hydrogen ad-soprtion on Si(001) by re�ectance di�erence, Appl. Surf.Science 132, 266 (1998).

1043. Perez-Rodriguez F., Recamier J., Mochan W.L. Direct photon-phonon coupling at (001) surfaces of zinc-blende structurecrystals, Surf Sci 414, 93-106 (1998).

1042. Yang H, Greene EF, Symmetry changes in He scattering froma Si(111) surface exposed to H atoms, Surf Sci 440: (3) 327-339 (1999).

1041. Oura K, Lifshits VG, Saranin AA, Zotov AV, Katayama M., Hy-drogen interaction with clean and modi�ed silicon surfaces,Surf Sci Reports 35: (1-2) 1-69 (1999).

1040. Que JZ, Radny MW, Smith PV, Application of the extendedBrenner potential to the Si(111)7 x 7: H system II: periodiccalculations, Surf Sci 444 140-155 (2000).

1039. Gavrilenko VI, Wu RQ, Downer MC, Ekerdt JG, Lim D, Parkin-son P. Optical second harmonic spectra of silicon-adatomsurfaces: theory and experiment, Thin Solid Films 364 1-5(2000).

1038. Tanaka M, Shirao T, Yamauchi D, et al. Chlorine adsorptionon Si(111) studied by optical methods, Appl Surf Sci 169: 212-216 (2001)

1037. N. Arzate and B.S. Mendoza, Microscopic study of surfacesecond- harmonic generation from clean Si(111)c(4 × 2)

surface, Phys. Rev B 63, 125303 (2001).

1036. Gavrilenko VI, Wu RQ, Downer MC, Ekerdt JG, Lim D, Par-kinson P., Optical second-harmonic spectra of Si(001) withH and Ge adatoms: First-principles theory and experiment- art. no. 165325, Phys Rev B 6316: (16) 5325 (2001)

1035. Mejia J, Mendoza BS Second-harmonic generation fromsingle-domain Si(100) surfaces, Surf Sci 487: (1-3) 180-190(2001)

1034. Downer MC, Mendoza BS, Gavrilenko VI, Optical secondharmonic spectroscopy of semiconductor surfaces: advan-ces in microscopic understanding, Surf Interface Anal 31:(10) 966 (2001)

1033. Dragnea B, Boulmer J, Debarre D, Bourguignon B In�uenceof adsorbates on UV-pulsed laser melting of Si in ultra-highvacuum, Applied Physics A-Materials Science & Processing73: (5) 609 (2001)

1032. Tanaka M, Shirao T, Sasaki T, Shudo K, Washio H, KanekoN., Adsorption process of chlorine on Si(111)7X7 studied bysurface di�erential re�ectivity and second harmonic gene-ration, J. of Vacuum Science & Technology A 20,1358 (2002)

1031. Tanaka M, Minami S, Shudo K, Yamakawa E, Isothermaldesorption process of Cl-covered Si(111) studied by surfacedi�erential re�ectivity spectroscopy Surf Sci 527, 10 (2003)

1030. Mendoza BS, Esser N, Richter W., Model for the e�ects of sur-face disorder on re�ectance anisotropy spectroscopy, PhysRev B 67, art. no. 165319 (2003)

1029. Castillo C, Mendoza BS, Schmidt WG, Hahn PH, Bechstedt F,Layer-by-layer analysis of surface re�ectance anisotropyin semiconductors, Phys Rev B 68, Art. No. 041310 (2003).


1028. M. Tanaka, E. Yamakawa, T. Shirao, and K. Shudo, Reactivityof halogens on a Si(111) surface studied by surface di�eren-tial re�ectivity, Phys. Rev. B 68, 165411 (2003).

1027. K. Shudo, H. Washio, and M. Tanaka, .Reactivity of restatomsand adatoms in Cl adsorption at a Si(111)-7 x 7 surface, J.Chem. Phys.119, 13077 (2003).

1026. C. Hogan, D. Paget, O. E. Tereshchenko, Lucia Reining, andG. Onida, Optical anisotropy induced by cesium adsorptionon the As-rich c(2 x 8) reconstruction of GaAs(001), Phys.Rev. B 69, 125332 (2004).

1025. Mejia JE, Salazar C, Mendoza BS, Layer-by-layer analysis ofsecond harmonic generation at a simple surface, Rev MexFis, 50, 134 (2004).

1024. P Weightman, D S Martin, R J Cole and T Farrell, Re�ec-tion anisotropy spectroscopy, Rep. Prog. Phys. 68 (2005)1251–1341.

1023. M. Tanaka, K. Shudo, and M. Numata, Adsorption site pre-ference of Br on Si(111)-7x7, Phys. Rev. B 73, 115326 (2006)

1022. Dotsenko, S.A., Galkin, N.G., Koval, L.V., Polyarnyi, V.O.; Insitu di�erential re�ectance spectroscopy study of solid pha-se epitaxy in Si(111)-Fe and Si(111)-Cr systems, e-Journal ofSurface Science and Nanotechnology 4, 319-329 (2006).

1021. Takizawa, J., Ohno, S., Koizumi, J., Shudo, K., Tanaka, M.;Real-time coverage monitoring of initial oxidation proces-ses on Si(001) by means of surface di�erential re�ectance,Journal of Physics Condensed Matter 18 L209 (2006).

1020. Y Owa, K Shudo, M Koma, T Iida, S Ohno and M Tana-ka, Characterization of initial halogen adsorption on Si(111)surface by scanning tunnelling microscopy: correlation withoptical measurements, J. Phys.: Condens. Matter 18, 5895(2006).

1019. Stephane Neuville, Transient transverse electrical �eld indu-ced by selective adsorbtion on low gap semiconducting thin�lms, Sensors and Actuators B: Chemical 121, 436 (2007).

1018. Mogawa, Y., Ohno, S.-Y., Shudo, K.-I., Tanaka, M.; Studyof Si(111) surface re�ection spectrum by cluster calculation,Journal of the Vacuum Society of Japan 49 (3), pp. 138-140(2006).

1017. Owa, Y., Koma, M., Iida, T., Ohno, S.-Y., Shudo, K.-I., Tanaka,M.; Formation process of poly-bromides in Br adsorption onSi (111) surface, J of the Vacuum Society of Japan 49, 144(2006).

1016. Takizawa, J.-I., Koizumi, J.-Y., Ohno, S.-Y., Shudo, K.-I., Tana-ka, M., Dependence of surface di�erential re�ectance spec-tra on the incident photon energy during initial oxidation onSi (001), J of the Vacuum Society of Japan 49, 323 (2006).

1015. Adsorption of Molecules on Metal, Semiconductor and Oxi-de Surfaces (Landolt-Bornstein: Numerical Data and Fun-ctional Relationships in Science and Technology - New Se-ries) by K. Christmann, H. J. Freund, J. Kim, and B. Koel,Springer; 1 edition (August 18, 2006).

1014. S Ohno, J Takizawa, J Koizumi, K Shudo and M Tanaka,The temperature dependence of monolayer oxidation onSi(001)-(2×1) studied with surface di�erential re�ectancespectroscopy, J. Phys.: Condens. Matter 19, 446011 (2007).

1013. M. Tanaka, K. Shudo and S. Ohno, Nanometer-Scale Struc-ture Formation on Solid Surfaces , in Advances in MaterialsResearch, Nano- and Micromaterials, pages 19 – 96, Eds.Kaoru Ohno, Masatoshi Tanaka, Jun Takeda, Yoshiyuki Ka-wazoe, Springer Berlin Heidelberg, 2008.

1012. Pedersen, K Second harmonic generation spectroscopy onSi surfaces and interfaces, PHYSICA STATUS SOLIDI B-BASICSOLID STATE PHYSICS 247 (8): 2002-2011 AUG 2010

1011. Bussetti, G; Violante, A; Yivlialin, R; Cirilli, S; Bonanni,B; Chiaradia, P; Goletti, C; Tortora, L; Paolesse, R; Mar-tinelli, E; DAmico, A; Di Natale, C; Giancane, G; Valli, LSite-Sensitive Gas Sensing and Analyte Discrimination inLangmuir-Blodgett Porphyrin Films, JOURNAL OF PHYSICALCHEMISTRY C 115 (16): 8189-8194 APR 28 2011

1010. Mejia, JE; Mendoza, BS; Pedersen, K Second harmonic res-ponse of the Si(111)7 x 7 surface, SURFACE SCIENCE 605 (9-10): 941-946 MAY 2011

1009. Barrigon, E; Bruckner, S; Supplie, O; Kleinschmidt, P; Rey-Stolle, I; Hannappel, T Optical in situ monitoring of hydro-gen desorption from Ge(100) surfaces, Appl. Phys. Lett. 102(11):10.1063/1.4798248 MAR 18 2013

1008. Shudo, K.-I. Introduction: Ultra-fast response of ultra-thinmaterials on solid surfaces, 2014, Springer Series in OpticalSciences 180 , pp. 1-25

1007. Wilson, H.F. , Barnard, A.S. Predictive morphology control ofhydrogen-terminated silicon nanoparticles, J Phys Chem C118 (5), 2014, 2580-2586

1006. Wilson, H.F., Barnard, A.S. Thermodynamic control ofhalogen-terminated silicon nanoparticle morphology, Crys-tal Growth and Design Volume 14, Issue 9, 3 September2014, Pages 4468-4474

1005. Yang, W.-H., Lu, W.-C., Wang, C.Z., Ho, K.M. How big does asi nanocluster favor bulk bonding Geometry?, 2016 Journalof Physical Chemistry C 120 (3), pp. 1966-1970

1004. Buchenko, V.V., Goloborodko, A.A., Afanasieva, T.V. Exci-tation spectra of Bi/Si(001) interfaces: Anregungsspektrenvon Bi/Si(001) Grenz�achen, 2016 Materialwissenscha� undWerksto�technik 47 (2-3), pp. 120-127


1003. Buchenko, V.V., Goloborodko, A.A. Bi nanolines characteri-zation by linear optical methods, 2016 Functional Materials23 (3), pp. 387-393

TIPO B (23):

1002. Beitia C., Preyss W., Del Sole R., Borenzstein Y., Adsorptionkinetics of H on Si(111)-7×7 by means of surface di�erentialre�ectivity, Phys. Rev. B 56, R4371 – R4374 (1997).

1001. Mendoza B.S. Del Sole R. and Shkrebtii A.I., Theory of opticalre�ectance anisotropy of the natural Si(110) surface, Phys.Rev B 57, R12709 – R12712 (1998).

1000. Del Sole R., Present status and capabilities for the theoreticalcalculation of surface optical properties, THIN SOLID FILMS313, 527 – 532 (1998).

999. Shkrebtii AI, Hughes JLP, Sipe JE, et al., Linear and non-linearspectroscopy of GaAs and GaP: theory versus experimentTHIN SOLID FILMS 313, 574 – 578 (1998).

998. Shkrebtii AI, Esser N, Richter W, Schmidt WG, Bechstedt F,Fimland BO, Kley A, Del Sole R. Re�ectance anisotropy ofGaAs(100): Theory and experiment, Phys. Rev. Lett. 81, 721(1998).

997. J. R. Power, P. Weightman, S. Bose, A. I. Shkrebtii, R. Del SoleSensitivity of Re�ectance Anisotropy Spectroscopy to theOrientation of Ge Dimers on Vicinal Si(001), Phys. Rev. Lett.80, 3133 (1998).

996. Mendoza BS, Gaggiotti A, Del Sole R Microscopic theory ofsecond harmonic generation at Si(100) surfaces, Phys. Rev.Lett. 81, 3781 (1998).

995. Mendoza BS, Gaggiotti A, Del Sole R Microscopic theory ofsecond harmonic generation at the Si(100)2x1 surface, PhysStatus Solidi A 170: (2) 343-347 (1998).

994. Arzate N., Mejia J.E., Mendoza B.E. Del Sole R. DC-electric-�eld-modi�ed second-harmonic generation at the Si(100)surface, Applied Physics B - Lasers and Optics 68, 629-632 (1999).

993. Power JR, Weightman P, Bose S, Shkrebtii AI, Del Sole R,The initial stages of Ge growth on vicinal Si(001) studiedby re�ectance anisotropy spectroscopy, Surf. Sci. 435, 373(1999).

992. Beitia C, Borensztein Y. Comparative study of the adsorptionof oxygen and hydrogen on Si(111)7 x 7 by surface di�eren-tial re�ectance spectroscopy, Phys Status Solidi A 175: (1)39-44 (1999).

991. Chiaradia P, Del Sole R, Di�erential-re�ectance spectros-copy and re�ectance-anisotropy spectroscopy on semicon-ductor surfaces, Surf Rev Lett 6: (3-4) 517-528 (1999).

990. Borensztein Y. Linear optical spectroscopies for surface stu-dies, Surf Rev Lett 7: (4) 399-410 (2000)

989. Mendoza BS, Palummo M, Onida G, Del Sole R., Ab initio cal-culation of second-harmonic-generation at the Si(100) sur-face - art. no. 205406, Phys Rev B 6320: (20) 5406 (2001)

988. Y. Borensztein, N. Witkowski, S. Royer, Isotropic and aniso-tropic optical re�ectances of clean and hydrogen-coveredSi(001)2x1 surfaces, physica status solidi (c), Volume 0,2966 (2003).

987. R. Del Sole, M. Palummo, O. Pulci, Theory of Surface Op-tical Properties, page 1, in Epioptics-7: Proceedings of the24th Course of the International School of Solid State Phy-sics, Erice, Sicily, Italy 20-26 July 2002 (Science and Cultu-re Series-Physics), Ed. A. Cricenti, World Scienti�c PublishingCompany (2004).

986. Y Borensztein and N Witkowski, Optical response of cleanand hydrogen-covered vicinal Si(001) 2 x 1 surfaces, J. Phys.:Condens. Matter 16 (2004) S4301-S4311.

985. Borensztein Y, Di�erential re�ectance spectroscopies of se-miconductor surfaces, Phys Status Solidi A 202, 1313 (2005).

984. N. Witkowski, O. Pluchery, and Y. Borensztein, Optical in-vestigation of benzene adsorption on vicinal single-domainSi(001)-(2×1) surfaces, Phys. Rev. B 72, 075354 (2005).

983. Y. Borensztein, O. Pluchery, and N. Witkowski, Probing theSi-Si Dimer Breaking of Si(100)2x1 Surfaces upon Molecu-le Adsorption by Optical Spectroscopy, Phys. Rev. Lett. 95,117402 (2005).

982. O. Pluchery, N. Witkowski, Y. Borensztein, Investigation ofmolecule chemisorption on Si(001)2 x1 surfaces by surfa-ce re�ectance spectroscopies, Physica Status solidi (b) 242,2696-2703 (2005).

981. N. Witkowski, R. Coustel, O. Pluchery and Y. Borensztein,RAS: An e�cient probe to characterize Si(0 0 1)-(2×1) sur-faces, Surf Sci 600 5142 (2006).

980. M Palummo, N Witkowski, O Pluchery, R Del Sole, YBorensztein, Re�ectance-anisotropy spectroscopy andsurface di�erential re�ectance spectra at the Si(100)surface: Combined experimental and theoretical study,Phys. Rev. B 79 035327 (2009)


In�uence of Morphology on the Optical Properties ofMetal Nanoparticles, A. L. Gonzalez, and Cecilia Noguez, JComput & Theo Nanoscience 4, 231 - 238 (2007)

TIPO A (75):


979. Cao, ZW; Fu, HB; Kang, LT; Huang, LW; Zhai, TY; Ma, Y; Yao, JN;Rapid room-temperature synthesis of silver nanoplates withtunable in-plane surface plasmon resonance from visible tonear-IR J. Mater. Chem. 18, 2673 (2008).



976. G. Ba�ou, R. Quidant, and C. Girard, Heat generation inplasmonic nanostructures: In�uence of morphology, Appl.Phys. Lett. 94, 153109 (2009)

975. C Ungureanu, R G Rayavarapu, S Manohar, T G. van Leeu-wen Discrete dipole approximation simulations of gold na-norod optical properties: Choice of input parameters andcomparison with experiment, J. Appl. Phys. 105 102032(2009)

974. Alonso-Huitron, JC; Acosta-Zepeda, C; Batina, N; Acosta-Garcia, MC; Castillo-Ocampo, P; Haro-Poniatowski, E UV-laser-induced modi�cations through a single slit on quasi-percolated silver nanostructured �lms, Radiation E�ects andDefects in Solids 164, 438 (2009)

973. Veletanlic, E; Goh, MC Polyelectrolyte Multilayer Films asTemplates for the In Situ Photochemical Synthesis of SilverNanoparticles, J. Phys. Chem. C 113,18020 (2009)

972. Tang, B; Xu, SP; An, J; Zhao, B; Xu, WQ; Lombardi, JR, Kinetice�ects of halide ions on the morphological evolution of sil-ver nanoplates, Phys. Chem. Chem. Phys. 11, 10286 (2009)

971. Nguyen, VL; Nguyen, DC; Hayakawa, T; Hirata, H; Lakshmi-narayana, G; Nogami, M, The synthesis and characteriza-tion of platinum nanoparticles: a method of controlling thesize and morphology, Nanotechnology 21, 035605 (2010)

970. Stobiecka, M., Deeb, J., Hepel, M. Ligand exchange e�ectsin gold nanoparticle assembly induced by oxidative stressbiomarkers: Homocysteine and cysteine, Biophysical Che-mistry 146, 98 (2010)

969. Knauer, A; Steinfeld, N; Romanus, H; Kohler, J. M Schne-lle Mischung in Mikro�uidsegmenten fur die Herstellungbinarer Metall-Nanopartikel mit enger Grobenverteilung,Proceedings: MikroSystemTechnik KONGRESS 2009

968. Long, N.V., Chien, N.D., Hayakawa, T., Hirata, H., Lakshmina-rayana, G., Nogami, M., The synthesis and characterizationof platinum nanoparticles: A method of controlling the si-ze and morphology, Nanotechnology 21, art. no. 035605(2010)



965. Magdalena Stobiecka, Kaitlin Coopersmith, Maria Hepel Re-sonance elastic light scattering (RELS) spectroscopy of fastnon-Langmuirian ligand-exchange in glutathione-inducedgold nanoparticle assembly, Journal of Colloid and Inter-face Science, 350 (1): 168-177 OCT 1 2010

964. Barnard, AS Modelling of nanoparticles: approaches tomorphology and evolution, REPORTS ON PROGRESS IN PHY-SICS 73 (8): Art. No. 086502 AUG 2010

963. Herrera-Becerra, R; Rius, JL; Zorrilla, C Tannin biosynthesisof iron oxide nanoparticles, APPLIED PHYSICS A-MATERIALSSCIENCE & PROCESSING 100 (2): 453-459 Sp. Iss. SI AUG2010

962. Messaoud, M., Chadeau, E., Brunon, C., Ballet, T., Rappenne,L., Roussel, F., Leonard, D., Oulahal, N., Langlet, M. Photoca-talytic generation of silver nanoparticles and application tothe antibacterial functionalization of textile fabrics, (2010)Journal of Photochemistry and Photobiology A: Chemistry,215 (2-3) pp. 147-156.

961. Tang, B; Xu, SP; Jian, XG; Tao, JL; Xu, WQ Real-Time, in-Situ,Extinction Spectroscopy Studies on Silver-Nanoseed Forma-tion, APPLIED SPECTROSCOPY 64 (12): 1407-1415 DEC 2010

960. Michael Quinten Optical Properties of NanoparticleSystems: Mie and beyond, 2011 Wiley-VCH VerlagGmbH & Co. KGaA, Print ISBN: 9783527410439, DOI:10.1002/9783527633135

959. Stobiecka M, Hepel M Multimodal coupling of optical tran-sitions and plasmonic oscillations in rhodamine B modi�edgold nanoparticles, PHYSICAL CHEMISTRY CHEMICAL PHY-SICS 13, 1131 (2011)

958. Wang, L., Kiya, A., Okuno, Y., Niidome, Y., Tamai, N. Ultra-fast spectroscopy and coherent acoustic phonons of Au-Agcore-shell nanorods, (2011) Journal of Chemical Physics, 134(5), art. no. 054501

957. Large, N; Aizpurua, J; Lin, V K; Teo, S L; Marty, R; Tripathy,S; Mlayah, A Plasmonic properties of gold ring-disk nano-resonators: �ne shape details matter, Optics Express 19,5587–5595 (2011)


956. Cook, WD; Nghiem, QD; Chen, Q; Chen, F; Sangermano, MSimultaneous Photoinduced Silver Nanoparticles Formationand Cationic Polymerization of Divinyl Ethers, MACROMO-LECULES 44 (11): 4065-4071 JUN 14 2011

955. Reed, Z., Prance, A., Stobiecka, M., Hepel, M. Resonan-ce elastic light scattering and plasmonic phenomena inglutathione-mediated gold nanoparticle assembly, 2010ECS Transactions 28 (20), pp. 43-57

954. Baida, H; Christo�los, D; Maioli, P; Crut, A; Del Fatti, N; Va-llee, F Surface plasmon resonance spectroscopy of singlesurfactant-stabilized gold nanoparticles, EUROPEAN PHYSI-CAL JOURNAL D 63 (2): 293-299 2011


952. Cong, T., Wani, S.N., Zhou, G., Baszczuk, E., Sureshkumar,R. Plasmonic nanogels with robustly tunable optical proper-ties, 2011 Proceedings of SPIE - The International Society forOptical Engineering 8097, art. no. 80970L

951. Newhouse, RJ; Zhang, JZ Optical Properties and Applica-tions of Shape-Controlled Metal Nanostructures, REVIEWSIN PLASMONICS 2010, 205-238; 2012

950. De Matos, R.A., Da Silva Cordeiro, T., Samad, R.E., VieiraJr., N.D., Courrol, L.C. Green synthesis of gold nanoparti-cles of di�erent sizes and shapes using agar-agar watersolution and femtosecond pulse laser irradiation, (2012) Ap-plied Physics A: Materials Science and Processing, 109 (3)pp. 737-741


948. Flores-Lopez, NS; Castro-Rosas, J; Ramirez-Bon, R; Mendoza-Cordova, A; Larios-Rodriguez, E; Flores-Acosta, M Synthesisand properties of crystalline silver nanoparticles suppor-ted in natural zeolite chabazite, JOURNAL OF MOLECULARSTRUCTURE, 1028 110-115; NOV 28 2012

947. N Harris, S Li, GC Schat Nanoparticles andtheory, AIP Conf. Proc. 1504, pp. 31-42;doi:http://dx.doi.org/10.1063/1.4771701 INTERNATIO-NAL CONFERENCE OF COMPUTATIONAL METHODS INSCIENCES AND ENGINEERING 2009: (ICCMSE 2009)

946. Patala, S; Marks, LD; de la Cruz, MO Elastic Strain EnergyE�ects in Faceted Decahedral Nanoparticles, J Phys ChemC, 117 (3):1485-1494; 10.1021/jp310045g JAN 24 2013

945. Saracut, V., Giloan, M., Gabor, M., Astilean, S., Farcau, C.Polarization-sensitive linear plasmonic nanostructures viacolloidal lithography with uniaxial colloidal arrays, 2013,ACS Applied Materials and Interfaces 5 (4) , pp. 1362-1369

944. B Sturman, E Podivilov, M Gorkunov Universal plasmo-nic properties of two-dimensional nanoparticles possessingsharp corners, Phys. Rev. B 87, 115406 (2013)

943. Sturman, B., Podivilov, E., Gorkunov, M. Metal nanoparticleswith sharp corners: Universal properties of plasmon reso-nances, 2013, EuroPhysics Lett. 101 (5) , art. no. 57009

942. Ahmad, N., Sharma, S. Biomediated AgNPS from some eth-nobotanical weeds-Pyllanthus amarus, 2011, InternationalJournal of Green Nanotechnology: Biomedicine 3 (2) , pp.109-117

941. Hepel, M; Blake, D; McCabe, M; Stobiecka, M; Coopersmith,K Assembly of Gold Nanoparticles Induced by Metal Ions,Editor(s): Hepel M; Zhong CJ en FUNCTIONAL NANOPARTI-CLES FOR BIOANALYSIS, NANOMEDICINE, AND BIOELECTRO-NIC DEVICES, VOL 1, 1112 207-240; 2012, ACS SymposiumSeries

940. Sahu, N; Soni, D; Chandrashekhar, B; Sarangi, BK; Satpute,D; Pandey, RA Synthesis and characterization of silver nano-particles using Cynodon dactylon leaves and assessment oftheir antibacterial activity, BIOPROCESS AND BIOSYSTEMSENGINEERING, 36 (7):999-1004, 2013


938. Gowri, S., Gandhi, R.R., Sundrarajan, M. Green synthesis oftin oxide nanoparticles by Aloe vera: Structural, optical andantibacterial properties, 2013, Journal of Nanoelectronicsand Optoelectronics 8 (3) , pp. 240-249


936. Grande, M; Bianco, GV; Vincenti, MA; de Ceglia, D; Pe-truzzelli, V; Scalora, M; Bruno, G; DOrazio, A; De Vittorio,M; Stomeo, T 2D plasmonic gold nano-patches for linearand nonlinear applications, MICROELECTRONIC ENGINEE-RING, 111 234-237; 10.1016/j.mee.2013.03.172 NOV 2013

935. Abid, M; Abid, M; Brasselet, S Double quantum light emis-sion from gold nanowires and interacting gold nanosphe-res, Editor(s): Stockman MI in PLASMONICS: METALLIC NA-NOSTRUCTURES AND THEIR OPTICAL PROPERTIES XI, 880910.1117/12.2016939 2013



933. Romanovskaya, G.I. Fluorescence of pyrene in inhomoge-neous media containing silver nanoparticles, Russian Jour-nal of Physical Chemistry A, Volume 88, Issue 5, May 2014,Pages 870-874

932. Albella, P. , Saiz, J.M., Gonzalez, F., Moreno, F. Nanoscopicinspection of surfaces based on plasmonic resonances, Op-tics InfoBase Conference Papers 2009, Novel Techniques inMicroscopy, NTM 2009; Vancouver; Canada; 26 April 2009through 30 April 2009; Code 104289

931. Vadlapudi, V., Kaladhar, D.S.V.G.K., Behara, M., Sujatha, B.,Naidu, G.K. Synthesis of green metallic nanoparticles (NPs)and applications, Oriental Journal of Chemistry Volume 29,Issue 4, 2013, Pages 1589-1595

930. Abid, M., Abid, M., Brasselet, S Double quantum light emis-sion from gold nanowires and interacting gold nanospheres,Proceedings of SPIE - The International Society for OpticalEngineering Volume 8809, 2013, Article number 880913Plasmonics: Metallic Nanostructures and Their Optical Pro-perties XI; San Diego, CA; United States; 25 August 2013through 29 August 2013; Code 104978

929. Dhanasekaran, V; Soundaram, N; Kim, SI; Chandramohan,R; Mantha, S; Saravanakumar, S; Mahalingam, T Optical,electrical and microstructural studies of monoclinic CuO na-nostructures synthesized by a sol-gel route, NEW JOURNALOF CHEMISTRY, 38 (6):2327-2333; 10.1039/c4nj00084f JUN2014

928. Knauer, A; Koehler, JM Screening of nanoparticle propertiesin micro�uidic syntheses, NANOTECHNOLOGY REVIEWS, 3(1):5-26; SI 10.1515/ntrev-2013-0018 FEB 2014

927. Ali, S., Iqbal, Y., Ajmal, M., Gonella, F., Cattaruzza, E., Qua-ranta, A Field-driven di�usion of transition metal and rare-earth ions in silicate glasses, Journal of Non-Crystalline So-lids Volume 405, 1 December 2014, Pages 39-44

926. Dubrovin, V.D., Ignatiev, A.I., Nevedomskii, V.M., Nikonorov,N.V., Sidorov, A.I., Tsekhomskii, V.A. The in�uence of synthe-sis conditions and ultraviolet irradiation on the morphologyand concentration of silver nanocrystals in photothermo-refractive glasses, Glass Technology: European Journal ofGlass Science and Technology Part A Volume 55, Issue 6, 1December 2014, Pages 191-195

925. Koehler, JM; Visaveliya, N; Knauer, A Controlling forma-tion and assembling of nanoparticles by control of elec-trical charging, polarization, and electrochemical potential,

NANOTECHNOLOGY REVIEWS, 3 (6):553-568; 10.1515/ntrev-2014-0006 DEC 2014

924. Agrawal, A., Kriegel, I., Milliron, D.J. Shape-dependent �eldenhancement and plasmon resonance of oxide nanocrys-tals, 2015 Journal of Physical Chemistry C 119 (11), pp. 6227-6238

923. Gong, X., Tang, J., Ji, Y., Wu, B., Wu, H., Liu, A. Adjustableplasmonic optical properties of hollow gold nanospheresmonolayers and LSPR-dependent surface-enhanced Ramanscattering of hollow gold nanosphere/graphene oxide hy-brids, 2015 RSC Advances 5 (53), pp. 42653-42662

922. Gorkunov, M.V., Sturman, B.I., Podivilov, E.V. Selective exci-tation of plasmons superlocalized at sharp perturbations ofmetal nanoparticles, 2015 EPL 110 (5), 57004



919. Roopan, S.M., Devi Rajeswari, V., Kalpana, V.N., Elango, G.Biotechnology and pharmacological evaluation of Indianvegetable crop Lagenaria siceraria: an overview, 2016 Ap-plied Microbiology and Biotechnology 100 (3), pp. 1153-1162

918. Mu, HW; Lv, JW; Liu, ZT; Zheng, SJ; Yang, L; Sun, T; Liu, Q;Liu, C Optical properties of local surface plasmon resonan-ce in Ag/ITO sliced nanosphere by the discrete dipole ap-proximation, 2016 Applied Physics A: Materials Science andProcessing 122 (4), 419

917. Pineda-Leon, H.A., Gutierrez-Heredia, G., De Leon, A., (...),Flores-Acosta, M., Castillo, S.J. Comparative study of PbS thin�lms growth by two di�erent formulations using chemicalbath deposition, A2016 Chalcogenide Letters 13 (4), 3

916. Chao, LM; Bao, LH; Wei, W; Tegus, O; Zhang, ZD E�ects ofNanoparticle Shape and Size on Optical Properties of LaB6,PLASMONICS, 11 (3):697-701 2016

915. Knauer, A., Koehler, J.M. Explanation of the size depen-dent in-plane optical resonance of triangular silver nano-prisms, 2016 Physical Chemistry Chemical Physics 18 (23),pp. 15943-15949

914. Mohan, DB Fabrication of plasmonically active Ag thin �lmsin the region of quasi-amorphous to nanocrystalline and itsapplication towards SERS, MATERIALS TODAY-PROCEEDINGS,2 (9):4436-4441; 10.1016/j.matpr.2015.10.045 A 2015


913. Kamal, SSK; Vimala, J; Sahoo, PK; Ghosal, P; Durai, L Ef-fect of Ag+ ion Concentration on the Reaction Kinetics andShape of Nanoparticles Synthesised by Green ChemicalApproach, DEFENCE SCIENCE JOURNAL, 66 (4):368-373; SI10.14429/dsj.66.10210 JUL-AUG 2016

912. Kohnehpoushi, S., Eskandari, M., Nejand, B.A., Ahmadi, V.Numerical calculation of plasmonic �eld absorption enhan-cement in CdSe-quantum dot sensitized ZnO nanorods byAg nanoparticle periodic arrays, 2016 Optical Materials 62,pp. 90-94

911. Dousti, MR; Amjad, RJ Plasmon Assisted Luminescence inRare Earth Doped Glasses, REVIEWS IN PLASMONICS 2015,2015 339-386; Book Series: Reviews in Plasmonics

910. Ha, J.W. Chemical interface damping of single gold nano-rods with low sensitivity to the medium dielectric constant,2017 Chemical Physics Letters 676, pp. 65-69

909. Jolhe, PD; Bhanvase, BA; Patil, VS; Sonawane, SH GreenRoute for Silver Nanoparticles Synthesis by RaphanusSativus Extract in a Continuous Flow Tubular Micro-reactor, INTERNATIONAL JOURNAL OF NANOSCIENCE, 16(1):10.1142/S0219581X16500198 FEB 2017

908. Lee, H., Ro, G., Kim, J.M., Kim, Y. Discrete-dipole approxima-tion for the optical properties with morphological changesof silver nanoprism and nanosphere via galvanic reaction,(2017) Materials Letters, 209 pp. 138-141



905. Ramirez, EVG; Hernandez, SA; Martinez, D; Diaz, G; Esqueda,JA Third order nonlinear optics in Ag nanocubes: local andnonlocal optical responses as a function of excitation wa-velength and particle size, OPTICS EXPRESS, 25 (25):31064-31076; 10.1364/OE.25.031064 DEC 11 2017

TIPO B (1):

904. Romo-Herrera, JM; Gonzalez, AL; Guerrini, L; Castiello,FR; Alonso-Nunez, G; Contreras, OE; Alvarez-Puebla,RA A study of the depth and size of concave cube Aunanoparticles as highly sensitive SERS probes, NANOSCALE,8 (13):7326-7333; 10.1039/c6nr01155a 2016

Artıculo (citas 74):

On the origin of the optical activity displayed by chiral-ligand-protected metallic nanoclusters, A. Sanchez-Castillo,Cecilia Noguez, Ignacio L. Garzon, J Am Chem Soc(Communication) 132, 1504–1505 (2010)

TIPO A (71):

903. Qian, HF; Zhu, Y; Jin, RC Isolation of Ubiquitous Au-40(SR)(24)Clusters from the 8 kDa Gold Clusters, J. Am. Chem. Soc. 132(13): 4583 2010

902. Zhu, M., Qian, H., Jin, R. Thiolate-ProtectedAu24(SC2H4Ph)20 nanoclusters: Superatoms or not?,Journal of Physical Chemistry Letters 1 (6), 1003 (2010)

901. Lopez-Acevedo, O; Tsunoyama, H; Tsukuda, T; Hakkinen, H;Aikens, CM Chirality and electronic structure of the thiolate-protected Au38 nanocluster, J. Am. Chem. Soc. 132, 8210(2010)

900. J F. Parker, C A. Fields-Zinna, R W. Murray, The Story ofa Monodisperse Gold Nanoparticle: Au25L18, Acc. Chem.Res., Articles ASAP (As Soon As Publishable) Publication Date(Web): July 2, 2010 (Article) DOI: 10.1021/ar100048c

899. N Cathcart, V Kitaev Silver Nanoclusters: Single-Stage Sca-leable Synthesis of Monodisperse Species and Their Chi-rooptical Properties, J. Phys. Chem. C 114, 16010-16017 2010

898. Angel, L.A., Majors, L.T., Dharmaratne, A.C., Dass, A. Ion mo-bility mass spectrometry of Au25(SCH2CH 2Ph)18 nanoclus-ters, (2010) ACS Nano, 4 (8) 4691-4700.

897. Wu ZK, Chen J, Jin RC One-Pot Synthesis of Au-25(SG)(18)2-and 4-nm Gold Nanoparticles and Comparison of TheirSize-Dependent Properties, Adv. Functional Materials 21,177-183, JAN 7 2011

896. Autschbach, J., Nitsch-Velasquez, L., Rudolph, M. Time-dependent density functional response theory for electro-nic chiroptical properties of chiral molecules, (2011) Topicsin Current Chemistry, 298 1-98.

895. Xia, YH; Zhou, YL; Tang, ZY Chiral inorganic nanoparticles:origin, optical properties and bioapplications, Nanoscale 3(4): 1374-1382 2011

894. Qi, H; Shopsowitz, KE; Hamad, WY; MacLachlan, MJ ChiralNematic Assemblies of Silver Nanoparticles in MesoporousSilica Thin Films, J. Am. Chem. Soc. 133 (11): 3728-3731 MAR23 2011

893. Wu, D., Zhang, X.-D., Liu, P.-X., Zhang, L.-A., Fan, F.-Y., Guo,M.-L. Gold nanostructure: Fabrication, surface modi�cation,targeting imaging, and enhanced radiotherapy, 2011 Cu-rrent Nanoscience 7 (1), 110-118


892. Li MN, Du DY, Yang GS, Li SL, Lan YQ, Shao KZ, Qin JS, Su ZM3D Chiral Microporous (10,3)-a Topology Metal-Organic Fra-mework Containing Large Helical Channels, Crystal Growth& Design 11, 2510-2514 2011


890. Zhu, M., Qian, H., Meng, X., Jin, S., Wu, Z., Jin, R. Chiral Au25nanospheres and nanorods: Synthesis and insight into theorigin of chirality, Nano Letters 11 (9), 3963-3969 2011

889. Forster, M., Dyer, M.S., Persson, M., Raval, R. Tailoring homo-chirality at surfaces: Going beyond molecular handedness,J. Am. Chem. Soc. 133 (40), 15992-16000 2011

888. Jiang, D.-E. Staple �tness: A concept to understand and pre-dict the structures of thiolated gold nanoclusters, Chemistry- A European Journal 17 (44), 12289-12293, 2011

887. Qian, H., Zhu, M., Gayathri, C., Gil, R.R., Jin, R. Chirality ingold nanoclusters probed by NMR spectroscopy, ACS Nano5 (11) , 8935-8942, 2011

886. Ben Moshe, A; Szwarcman, D; Markovich, G Size Dependen-ce of Chiroptical Activity in Colloidal Quantum Dots, ACSNANO 5 (11): 9034-9043 2011

885. Mansfeld, D., Miersch, L., Ru�er, T., Schaarschmidt, D., Lang,H., Bohle, T., Tro�, R.W., (...), Mehring, M. From Bi22O26 tochiral ligand-protected Bi 38O45-based bismuth oxido clus-ters, 2011 Chemistry - A European Journal 17 (52) , 14805-14810

884. Yao, H., Kitaoka, N., Sasaki, A. Chemical transformation ofchiral monolayer-protected gold clusters: Observation of li-gand size e�ects on optical and chiroptical responses, Na-noscale 4 (3) , 955-963, 2012

883. Wang, J.-P., Yan, L.-K., Yang, G.-C., Guan, W., Su, Z.-M. TDDFTstudies on the structures and ECD spectra of chiral bi-sarylimidos bearing di�erent lengths of o-alkoxy chain-substituted polyoxomolybdates, 2012 Journal of MolecularGraphics and Modelling 35 , 49-56

882. Hakkinen, H The gold-sulfur interface at the nanoscale, Na-ture Chem., 4 (6):443-455; 10.1038/NCHEM.1352 JUN 2012

881. Liu, HL; Ye, YJ; Chen, J; Lin, DY; Jiang, Z; Liu, ZJ; Sun,B; Yang, LB; Liu, JH In Situ Photoreduced Silver Nano-particles on Cysteine: An Insight into the Origin of Chi-rality, Chemistry-A European Journal, 18 (26):8037-8041;10.1002/chem.201200397 JUN 2012

880. Aikens, C.M. Modelling small gold and silver nanoparticleswith electronic structure methods, 2012, Molecular Simula-tion 38 (8-9) , 607-614

879. Xie, J., Duan, Y., Che, S., Chirality of metal nanoparticles inchiral mesoporous silica, 2012, Advanced Functional Mate-rials 22 (18) , 3784-3792

878. Qian, H., Zhu, M., Wu, Z., Jin, R. Quantum sized gold nano-clusters with atomic precision, 2012, Accounts Chem. Res.45 (9) , 1470-1479

877. Ben-Moshe, A., Govorov, A.O., Markovich, G. Enantioselecti-ve synthesis of intrinsically chiral mercury sul�de nanocrys-tals, 2013, Angewandte Chemie - International Edition 52 (4), 1275-1279

876. Du, DY; Yan, LK; Su, ZM; Li, SL; Lan, YQ; Wang, EB Chiralpolyoxometalate-based materials: From design synthesesto functional applications, Coordination Chem Rev, 257 (3-4):702-717; 10.1016/j.ccr.2012.10.004 FEB 2013

875. Sang, Y.-M., Yan, L.-K., Ma, N.-N., Wang, J.-P., Su, Z.-M. TDDFTstudies on the determination of the absolute con�gurationsand chiroptical properties of strandberg-type polyoxometa-lates, 2013, Journal of Physical Chemistry A 117 (12) , 2492-2498

874. Zeng, C., Li, T., Das, A., Rosi, N.L., Jin, R. Chiral structureof thiolate-protected 28-gold-atom nanocluster determinedby X-ray crystallography, 2013, Journal of the AmericanChemical Society 135 (27) , 10011-10013

873. Jiang, D.-E. The expanding universe of thiolated gold nano-clusters and beyond, 2013, Nanoscale 5 (16) , 7149-7160

872. Kurashige, W., Yamazoe, S., Kanehira, K., Tsukuda, T., Ne-gishi, Y. Selenolate-protected Au38 nanoclusters: Isolationand structural characterization, 2013, J Phys Chem Letters4 (18) , 3181-3185

871. Ben-Moshe, A., Maoz, B.M., Govorov, A.O., Markovich, G.Chirality and chiroptical e�ects in inorganic nanocrystalsystems with plasmon and exciton resonances, 2013, Che-mical Society Reviews 42 (16) , 7028-7041

870. Manzoor, D., Pal, S., Krishnamurty, S. In�uence of chargeand ligand on the �nite temperature behavior of gold clus-ters: A BOMD study on Au6 cluster, 2013, Journal of PhysicalChemistry C 117 (40) , 20982-20990

869. Negishi, Y; Kurashige, W; Niihori, Y; Nobusada, K Towardthe creation of stable, functionalized metal clusters, PHY-SICAL CHEMISTRY CHEMICAL PHYSICS, 15 (43):18736-18751;10.1039/c3cp52837e 2013

868. Pei, Y., Lin, S., Su, J., Liu, C. Structure prediction ofAu44(SR)28: A chiral superatom cluster, 2013, J Am ChemSoc 135 (51), 19060-19063


867. Tohgha, U., Deol, K.K., Porter, A.G., Bartko, S.G., Choi, J.K.,Leonard, B.M., Varga, K., Kubelka, J., Muller, G., Balaz, M.Ligand induced circular dichroism and circularly polarizedluminescence in cdse quantum dots, 2013, ACS Nano 7 (12),11094-11102

866. Jin, R., Nobusada, K Doping and alloying in atomically pre-cise gold nanoparticles, Nano Research Volume 7, Issue 3,March 2014, Pages 285-300

865. Negishi, Y. Toward the creation of functionalized metal na-noclusters and highly active photocatalytic materials usingthiolate-protected magic gold clusters, Bulletin of the Che-mical Society of Japan Volume 87, Issue 3, 2014, Pages 375-389


863. Zhang, L., Wang, E. Metal nanoclusters: New �uorescent pro-bes for sensors and bioimaging, Nano Today Volume 9, Is-sue 1, February 2014, Pages 132-157

862. Burgi, T. 8.34 Physical and Spectrometric Analysis: Nano-Detection of Chirality, Comprehensive Chirality Volume 8,September 2012, Pages 657-675

861. Autschbach, J. Calculating Electronic Optical Activity of Coor-dination Compounds, Comprehensive Inorganic Chemistry II(Second Edition): From Elements to Applications Volume 9,August 2013, Pages 407-426, (Book Chapter)

860. Nishigaki, J; Koyasu, K; Tsukuda, T Chemically Modi�edGold Superatoms and Superatomic Molecules, CHEMICALRECORD, 14 (5):897-909; SI 10.1002/tcr.201402011 OCT 2014

859. Negishi, Y Precisely Controlled Metal Nanoclusters, Editedby: Matsuo Y; Higuchi M; Negishi Y; Yoshizawa M; Uemu-ra T; Takaya H; Ueno T; Takeuchi M; Yoshimoto S METAL-MOLECULAR ASSEMBLY FOR FUNCTIONAL MATERIALS, 21-28;10.1007/978-4-431-54370-1-3 2013

858. Liu, X., Hamilton, I.P. Helical gold nanorods as chiral recogni-tion nanostructures: A relativistic density functional theorystudy, Journal of the American Chemical Society Volume136, Issue 51, 24 December 2014, Pages 17757-17761

857. Wu, X., Xu, L., Ma, W., Liu, L., Kuang, H. , Yan, W., Wang, L.,Xu, C. Gold core-DNA-silver shell nanoparticles with intenseplasmonic chiroptical activities, Advanced Functional Mate-rials Volume 25, Issue 6, 11 February 2015, Pages 850-854


855. Barcaro, G; Sementa, L; Fortunelli, A; Stener, M Optical pro-perties of nanoalloys, PHYSICAL CHEMISTRY CHEMICAL PHY-SICS, 17 (42):27952-27967; 1 2015

854. Ma, LG; Huang, ZH; Duan, YY; Shen, XF; Che, SN Opti-cally active chiral Ag nanowires, Science China-Materials,58 (6):441-446; 10.1007/s40843-015-0058-x JUN 2015

853. Pichugina, DA; Kuz’menko, NE; Shestakov, AF Ligand-protected gold clusters: the structure, synthesis and ap-plications, RUSSIAN CHEMICAL REVIEWS, 84 (11):1114-1144;10.1070/RCR4493 2015

852. Yao, H. Monolayer-protected metal nanoclusters with chira-lity: Synthesis, size fractionation, optical activity and asym-metric transformation, 2015 Handbook of Nanoparticlespp.191-216

851. Niihori, Y; Uchida, C; Kurashige, W; Negishi, Y High-resolution separation of thiolate-protected gold clusters byreversed-phase high-performance liquid chromatography,PHYSICAL CHEMISTRY CHEMICAL PHYSICS, 18 (6):4251-4265;(2016)

850. Choi, JK; Haynie, BE; Tohgha, U; Pap, L; Elliott, KW; Leonard,BM; Dzyuba, SV; Varga, K; Kubelka, J; Balaz, M ChiralityInversion of CdSe and CdS Quantum Dots without Changingthe Stereochemistry of the Capping Ligand, ACS NANO, 10(3):3809-3815; 10.1021/acsnano.6b00567 MAR 2016

849. Petty, JT; Sergev, OO; Ganguly, M; Rankine, IJ; Chevrier, DM;Zhang, P A Segregated, Partially Oxidized, and CompactAg-10 Cluster within an Encapsulating DNA Host, JOURNALOF THE AMERICAN CHEMICAL SOCIETY, 138 (10):3469-3477;10.1021/jacs.5b13124 MAR 16 2016

848. Yao, H; Iwatsu, M Water-Soluble Phosphine-Protected Au-11Clusters: Synthesis, Electronic Structure, and Chiral PhaseTransfer in a Synergistic Fashion, LANGMUIR, 32 (13):3284-3293; 10.1021/acs.langmuir.6b00539 APR 5 2016

847. Gong, DJ; Gao, GB; Zhang, MX; Sun, TL Chiral Gold Nano-clusters Synthesis, Properties and Applications, PROGRESSIN CHEMISTRY, 28 (2-3):296-307; 10.7536/PC150931 MAR2016

846. Long, TF; Guo, YJ; Lin, M; Yuan, MK; Liu, ZD; Huang,CZ Optically active red-emitting Cu nanoclusters origina-ting from complexation and redox reaction between cop-per(II) and D/L-penicillamine, NANOSCALE, 8 (18):9764-9770; 10.1039/c6nr01492e 2016

845. Aikens, CM Optical Properties and Chirality, PROTECTEDMETAL CLUSTERS: FROM FUNDAMENTALS TO APPLICATIONS,9 223-261; 10.1016/B978-0-08-100086-1.00009-9 2015,Book Series: Frontiers of Nanoscience


844. Fan, Z., Zhang, H., Schreiber, R., (...), Gun’ko, Y.K., Govorov,A.O. Chiral nanostructures with plasmon and exciton reso-nances, (Book Chapter) 2014 in Singular and Chiral Nano-plasmonics pp. 1-55

843. Tang, Q., Jiang, D.-E. Computational Insight into the CovalentOrganic-Inorganic Interface, 2016 Chemistry of Materials28 (17), pp. 5976-5988



840. Yasukawa, T; Miyamura, H; Kobayashi, S Chiral Ligand-Modi�ed Metal Nanoparticles as Unique Catalysts forAsymmetric C-C Bond-Forming Reactions: How Are Acti-ve Species Generated?, ACS CATALYSIS, 6 (11):7979-7988;10.1021/acs.catal.6b02446 NOV 2016

839. Sharma, S., Kurashige, W., Niihori, Y., Negishi, Y. NanoclusterScience, 2016 Supra-materials Nanoarchitectonics pp. 3-32

838. Darling, GR; Forster, M; Lin, C; Liu, N; Raval, R; Hodgson, AChiral segregation driven by a dynamical response of theadsorption footprint to the local adsorption environment:bitartrate on Cu(110), PHYSICAL CHEMISTRY CHEMICAL PHY-SICS, 19 (11):7617-7623; 10.1039/c7cp00622e 2017


836. Liu, X.J., Hamilton, I.P. A series of intrinsically chiral gold na-nocage structures, Nanoscale 9(29), pp. 10321-10326 2017

835. Zeng, CJ; Jin, RC Chiral Gold Nanoclusters: Atomic Le-vel Origins of Chirality, CHEMISTRY-AN ASIAN JOURNAL, 12(15):1839-1850; 10.1002/asia.201700023 AUG 4 2017

834. Wei, JJ; Guo, YJ; Li, JZ; Yuan, MK; Long, TF; Liu, ZD OpticallyActive Ultra�ne Au-Ag Alloy Nanoparticles Used for Colo-rimetric Chiral Recognition and Circular Dichroism Sensingof Enantiomers, ANALYTICAL CHEMISTRY, 89 (18):9781-9787;10.1021/acs.analchem.7b01723 SEP 19 2017

833. Yuan, MK; Guo, YJ; Wei, JJ; Li, JZ; Long, TF; Liu, ZD Opti-cally active blue-emitting carbon dots to speci�cally targetthe Golgi apparatus, RSC ADVANCES, 7 (79):49931-49936;10.1039/c7ra09271g 2017

TIPO B (3):

832. Tlahuice, A; Garzon, IL On the structure of the Au-18(SR)(14) cluster, Phys. Chem. Chem. Phys., 14 (11):3737-3740; 10.1039/c2cp24016e 2012

831. Molina, B., Sanchez-Castillo, A., Knoppe, S., Garzon, I.L.,Burgi, T., Tlahuice-Flores, A. Structures and chiroptical pro-perties of the BINAS-monosubstituted Au 38(SCH3)24 clus-ter, 2013, Nanoscale 5 (22) , 10956-10962



Optical properties of elongated noble metal nanoparticles,A. L. Gonzalez, J. A. Reyes-Esqueda, and Cecilia Noguez, JPhys Chem C 112, 7356 – 7362 (2008)

TIPO A (65):

829. D Zhao, X Chen, Y Liu, C Wu, R Ma, Y An, L Shi, Thermosen-sitive and pH-sensitive Au-Pd bimetallic nanocomposites, JColloid and Interface Science 331, 104 (2009)


827. X Dong, X Ji, H Wu, L Zhao, J Li and W Yang Shape Control ofSilver Nanoparticles by Stepwise Citrate Reduction, J. Phys.Chem. C 113, 6573 (2009)


825. Bernabo, M; Pucci, A; Galembeck, F; Leite, CAD; Ruggeri, G.,Thermal- and Sun-Promoted Generation of Silver Nanopar-ticles Embedded into Poly(vinyl alcohol) Films, Macromole-cular Materials and engineering 294, 256 (2009)

824. Zhu, J Shi� Fashion of Surface Plasmon Resonances in Non-Spherical Gold Nanoparticles: A Simple Model of SurfacePlasmon Dynamics, Current Nanoscience 5, 216 (2009)

823. Duan, JS; Park, K; MacCuspie, RI; Vaia, RA; Pachter, R, OpticalProperties of Rodlike Metallic Nanostructures: Insight fromTheory and Experiment, J. Phys. Chem. C 113, 15524 (2009)

822. V Amendola, O M. Bakr, F Stellacci A Study of the SurfacePlasmon Resonance of Silver Nanoparticles by the DiscreteDipole Approximation Method: E�ect of Shape, Size, Structu-re, and Assembly, Plasmonics Published online: 12 January2010, DOI 10.1007/s11468-009-9120-4


821. E Kowalska, O Omar Prieto Mahaney, R Abe, B Ohtani,Visible-light-induced photocatalysis through surface plas-mon excitation of gold on titania surfaces, Phys. Chem.Chem. Phys. 12, 2344 (2010)

820. B Khlebtsov, V Khanadeev, N Khlebtsov, Tunable depolarizedlight scattering from gold and gold/silver nanorods, Phys.Chem. Chem. Phys., 12 (13): 3210-3218 2010


818. Borensztein Y, Delannoy L, Djedidi A, et al. Monitoring of thePlasmon Resonance of Gold Nanoparticles in Au/TiO2 Ca-talyst under Oxidative and Reducing Atmospheres, J. Phys.Chem. C 114, 9008 (2010).

817. Khlebtsov, NG Anisotropic properties of plasmonic nanopar-ticles: depolarized light scattering, dichroism, and birefrin-gence, J. Nanophotonics 4: Art. No. 041587 MAR 4 2010

816. Liu, P; Liu, J; Liu, J; Zhao, X; Xie, J; Wang, Y, Scattering pro-perties of an individual metallic nano-spheroid by the inci-dent polarized light wave, Optics Communications, 284 (4),p.1076, Feb 2011

815. Yang, P., Portales, H., Pileni, M.-P. Dependence of the locali-zed surface plasmon resonance of noble metal quasisphe-rical nanoparticles on their crystallinity-related morpholo-gies, (2011) J. Chemical Physics, 134 (2), art. no. 024507


813. Som, T., Karmakar, B. Nano silver: Antimony glass hybridnanocomposites and their enhanced �uorescence applica-tion,2011 Solid State Sciences 13 (5), pp. 887-895

812. Kooij, ES; Ahmed, W; Zandvliet, HJW; Poelsema, B LocalizedPlasmons in Noble Metal Nanospheroids, J. Phys. Chem. C115 (21): 10321-10332 JUN 2 2011

811. Vouagner, D., Bois, L., Nardou, E., Sirotkin, S., Champagnon,B., Chassagneux, F. Orientation of spheroid-shaped silvernanoparticles in mesostructured silica �lms studied by po-larized absorption and low-frequency Raman spectroscopy,2011 J. Non-Crystalline Solids 357 (14), pp. 2615-2619

810. DAgostino S, Della Sala F Silver Nanourchins in Plasmonics:Theoretical Investigation on the Optical Properties of theBranches, J. Phys. Chem. C 115 (24), pp. 11934-11940 2011

809. Reddy, NK; Perez-Juste, J; Pastoriza-Santos, I; Lang, PR;Dhont, JKG; Liz-Marzan, LM; Vermant, J Flow Dichroism as aReliable Method to Measure the Hydrodynamic Aspect Ratioof Gold Nanoparticles, ACS Nano 5 (6): 4935-4944 JUN 2011

808. Anghinol�, L; Moroni, R; Mattera, L; Canepa, M; Bisio, F Flexi-ble Tuning of Shape and Arrangement of Au Nanoparticlesin 2-Dimensional Self-Organized Arrays: Morphology andPlasmonic Response, J. Phys. Chem. C 115 (29): 14036-140432011

807. Baida, H; Christo�los, D; Maioli, P; Crut, A; Del Fatti, N; Va-llee, F Surface plasmon resonance spectroscopy of singlesurfactant-stabilized gold nanoparticles, Eur. Phys. J. D 63(2): 293-299 2011

806. Albella, P; Saiz, JM; Gonzalez, F; Moreno, F Surface mo-nitoring based on light scattering by metal nanosensors,J. Quantitative Spectroscopy & Radiative Transfer 112 (13):2046-2058 SI 2011

805. Saldias, C., Leiva, A., Quezada, C., Jaque, P., Gargallo, L., Ra-dic, D Structural e�ects of amphiphilic block copolymers onthe gold nanoplates synthesis. Experimental and theoreti-cal study, European Polymer Journal 47 (10), pp. 1866-18762011

804. Brahma, R; Reddy, GM; Lakshmi, PA; Singh, S; Krishna, MGControlled Nanostructuring of Ag Films by Ion Beam SputterDeposition for Surface Plasmon Resonance Applications, J.Nanosci. and Nanotechnol. 11 (8): 6843-6851 2011

803. Scotognella, F., Della Valle, G., Srimath Kandada, A.R., Dorfs,D., Zavelani-Rossi, M., Conforti, M., Miszta, K., Comin, A., Ko-robchevskaya, K., Lanzani, G., Manna, L., Tassone, F. Plas-mon dynamics in colloidal Cu2-xSe nanocrystals, 2011 NanoLetters 11 (11), pp. 4711-4717

802. Khan, Z.A., Kumar, R., Dutta, J. Multilayer thin �lms of colloi-dal gold and silica nanoparticles: E�ect of polyelectrolytecoating, 2012, Canadian J. Chemical Engineering 90 (4) , pp.919-924

801. Ding, XL; Kan, CX; Mo, B; Ke, SL; Cong, B; Xu, LH; Zhu,JJ Synthesis of polyhedral Ag nanostructures by a PVP-assisted hydrothermal method, J. Nanoparticle Res., 14(8):10.1007/s11051-012-1000-8 AUG 2012

800. Dhakal, T.R., Mishra, S.R., Glenn, Z., Rai, B.K. Synergistic ef-fect of pvp and peg on the behavior of silver nanoparticle-polymer composites, 2012, J. Nanoscience and Nanotech-nology 12 (8) , pp. 6389-6396

799. Kats, MA; Genevet, P; Aoust, G; Yu, NF; Blanchard, R; Aieta,F; Gaburro, Z; Capasso, F Giant birefringence in optical an-tenna arrays with widely tailorable optical anisotropy, Proc.Nat. Academy Sci. of USA, 109 (31):12364-12368; 2012

798. Materials engineering with swi� heavy ions, (2011) SpringerSeries in Materials Science, 145 (1) pp. 142-230.


797. Logsdail, A.J., Johnston, R.L. Predicting the optical propertiesof core-shell and Janus segregated Au-M nanoparticles (M= Ag, Pd), 2012, J. Phys. Chem. C 116 (44) , pp. 23616-23628


795. Martin, A; Schopf, C; Pescaglini, A; ORiordan, A; Iaco-pino, D Synthesis, optical properties and self-assemblyof gold nanorods, J. Exp. Nanosci., 7 (6):688-702; SI10.1080/17458080.2012.711915 2012

794. Yu, NF; Aieta, F; Genevet, P; Kats, MA; Gaburro, Z; Capasso, FA Broadband, Background-Free Quarter-Wave Plate Basedon Plasmonic Metasurfaces, Nano Lett., 12 (12):6328-6333;10.1021/nl303445u DEC 2012

793. Sankar, S., Gopchandran, K.G. Rutile TiO2(101) based plas-monic nanostructures, 2013, Ceramics International 39 (2) ,pp. 1081-1086

792. Yu, N.; Genevet, P.; Aieta, F.; Kats, M.; Blanchard, R.; Aoust, G.;Tetienne, J.; Gaburro, Z.; Capasso, F.; , Flat Optics: ControllingWavefronts with Optical Antenna Metasurfaces, Selected To-pics in Quantum Electronics, IEEE Journal of , vol.PP, no.99,pp.1, 0 doi: 10.1109/JSTQE.2013.2241399

791. S Vilayurganapathy, A Devaraj, R Colby, A Pandey, T Var-ga, V Shutthanandan, S Manandhar, P Z El-Khoury, Asg-har Kayani, W P Hess, S Thevuthasan Subsurface synthe-sis and characterization of Ag nanoparticles embedded inMgO, Nanotechnology 24, 095707 (2013)

790. Esquivel-Sirvent, R; Schatz, GC Van der Waals TorqueCoupling between Slabs Composed of Planar Arrays of Na-noparticles, J. Phys. Chem C 117 (10): 5492-5496 (2013)

789. Scotognella, F., Della Valle, G., Srimath Kandada, A.R.,Zavelani-Rossi, M., Longhi, S., Lanzani, G., Tassone, F.Plasmonics in heavily-doped semiconductor nanocrystals,2013, European Physical Journal B 86 (4) , art. no. 154

788. Ali, Y., Sharma, K., Kumar, V., Sonkawade, R.G., Dhaliwal,A.S. Polypyrrole microspheroidals decorated with Ag nanos-tructure: Synthesis and their characterization, 2013, AppliedSurface Science 280 , pp. 950-956



785. Licea-Rodriguez, J., Rocha-Mendoza, I., Rangel-Rojo, R.,Rodriguez-Fernandez, L., Oliver, A. Femtosecond laser wri-ting over silver nanoparticles system embedded in silicausing nonlinear microscopy, 2014, Optical Materials 36 (3), pp. 682-686


783. Hu, Y., Qiu, J., Song, Z., Zhou, D Ag2O dependent up-conversion luminescence properties in Tm 3+/Er3+/Yb3+ co-doped oxy�uorogermanate glasses, Journal of Applied Phy-sics Volume 115, Issue 8, 2014, Article number 083512

782. Ros, I., Placido, T., Amendola, V., Marinzi, C., Manfredi, N.,Comparelli, R., Striccoli, M., Agostiano, A., Abbotto, A., Pe-dron, D., Pilot, R., Bozio, R. SERS Properties of Gold Nanorodsat Resonance with Molecular, Transverse, and LongitudinalPlasmon Excitations, Plasmonics Volume 9, Issue 3, June2014, Pages 581-593

781. Zhang, S.; Ren, F; Wu, W; Zhou J; Sun, L; Xiao, X; Jiang, C; Si-ze e�ects of Ag nanoparticles on plasmon-induced enhan-cement of photocatalysis of Ag-α-F23O3 nanocomposites,Journal of Colloidal and Interface Science 427, 29-34 (2014)

780. Jain, P., Arun, P. Localized surface plasmon resonance inSnS:Ag nano-composite �lms, Journal of Applied Physics115, Issue 20, 28 May 2014, Article number 204512

779. Pescaglini, A., O’Riordan, A., Quinn, A.J., Iacopino, D. Contro-lled assembly of Au nanorods into 1D architectures by elec-tric �eld assisted deposition, Journal of Materials ChemistryC, Volume 2, Issue 33, 7 September 2014, Pages 6810-6816

778. Meng, K.A., Richardson, J.N., Kegerreis, J.S. Modeling of theprocessing dynamics of aerogel/gold nanoparticle compo-sites, Materials Chemistry and Physics Volume 148, Issue1-2, 14 November 2014, Pages 478-484

777. Min, J., Wang, F., Cai, Y., Liang, S., Zhang, Z., Jiang, X. Azeo-tropic distillation assisted fabrication of silver nanocagesand their catalytic property for reduction of 4-nitrophenol,Chemical Communications Volume 51, Issue 4, 14 January2015, Pages 761-764

776. Biswas, K., Roy, J.K., Doley, R., Mohanta, D., Mukherjee, A.KImaging bactericidal e�ect of faceted Ag nanostructures(FAgN) on gram negative, coli form Escherichia coli bacte-ria, Journal of Bionanoscience Volume 8, Issue 4, 1 August2014, Pages 248-254

775. Lu, X., Zhang, W., Zhang, L., (...), Zhang, T., Wangy, G. Plas-monic sensor based on perfect absorber with metallic na-noring structures, 2014 Proceedings of SPIE - The Interna-tional Society for Optical Engineering 9275, 92751S


774. Loncaric, M; Sancho-Parramon, J; Zorc, H; Segota, S; Dub-cek, P; Bernstor�, S Optical and structural characterizationof gold island �lms on glass substrates, THIN SOLID FILMS,591 204-209; 10.1016/j.tsf.2015.04.031 B SEP 30 2015


772. Lu, XY; Wan, RG; Liu, F; Zhang, TY High-sensitivity plasmonicsensor based on perfect absorber with metallic nanoringstructures, JOURNAL OF MODERN OPTICS, 63 (2):177-183;10.1080/09500340.2015.1066459 2016

771. Smith, AF; Patton, P; Skrabalak, SE Plasmonic Nanoparticlesas a Physically Unclonable Function for Responsive Anti-Counterfeit Nano�ngerprints, Smith, Alison F.; Patton, Paul;Skrabalak, Sara E.ADVANCED FUNCTIONAL MATERIALS, 26(9):1315-1321; 10.1002/adfm.201503989 MAR 2 2016

770. Qiu, JB; Jiao, Q; Zhou, DC; Yang, ZW Recent progress on up-conversion luminescence enhancement in rare-earth dopedtransparent glass-ceramics, JOURNAL OF RARE EARTHS, 34(4):341-367; 10.1016/S1002-0721(16)60034-0 APR 2016

769. Yao, Y; Tang, B; Chen, W; Sun, L; Wang, XG Sunlight-InducedColoration of Silk, NANOSCALE RESEARCH LETTERS, 11 1-9;10.1186/s11671-016-1506-6 JUN 14 2016

768. Shrivas, K., Nirmalkar, N., Ghosale, A., Thakur, S.S., Shan-kar, R. Enhancement of plasmonic resonance through anexchange reaction on the surface of silver nanoparticles:Application to the highly selective detection of triazophospesticide in food and vegetable samples, 2016 RSC Advan-ces 6 (84), pp. 80739-80747

767. Tahir, A.A., Schulz, S.A., De Leon, I., Boyd, R.W. Design princi-ples for wave plate metasurfaces using plasmonic L-shapednanoantennas, 2017 Journal of Optics (United Kingdom)19(3),035001

766. Gutierrez, JA; Caballero, S; Diaz, LA; Guerrero, MA; Ruiz, J;Ortiz, CC High Antifungal Activity against Candida Speciesof Monometallic and Bimetallic Nanoparticles Synthesizedin Nanoreactors 2018 ACS Biomaterials Science and Engi-neering 4(2), pp. 647-653

TIPO B (4):



763. Tamayo-Rivera, L; Fernandez-Hernandez, RC; Rodriguez-Fernandez, L; Rangel-Rojo, R; Oliver, A; Reyes-Esqueda, JAWavelength-varying third-order nonlinear optical responseof Ag nanoparticles-Si quantum dots integrated plasmonicsystem, Optical Materials Express, 1 (5):980-989; SEP 1 2011


761. Cesca, T; Esquivel, HS; Gemo, E; Michieli, N; Kalinic,B; Ramirez, EVG; Cervantes, JMG; Rojo, RR; Esqueda,JAR; Mattei, G Wavelength- and polarization-dependentnonlinear optical properties of plasmonic nanoprismarrays, NONLINEAR OPTICS AND ITS APPLICATIONS IV, 989410.1117/12.2227065 2016 Proceedings of SPIE


A new diagrammatic summation for the e�ective dielectricresponse of composites, R. G. Barrera, Cecilia Noguez, E.V. Anda, J Chem Phys 96 (2), 1574–1581, (1992)

TIPO A (18):

760. A. Czainski, Garncarek Z., Piasecki R., Quantitive characte-rization of inhomogeneity in thin mettalic �lms using Garn-carek method, Journal of Physics D, 27, 616 – 622 (1994).

759. Zhou J. Li L.T., Gui Z.L., Zhang X.W., Barber D.J., Sol-gel deri-ved BaTiO3 �lms with embedded silver nanoparticles: pre-paration and dielectric properties, Nanostruct. Mater. 8, 321– 328 (1997).

758. M.I. Vasilevskiy, E.V. Anda, E�ective dielectric response ofsemiconductor composites, Phys. Rev. B 54, 5844 – 5851,(1996).

757. M. I. Stockman, K. B. Kurlayev, T. F. George, Linear and nonli-near optical susceptibilities of Maxwell Garnett composites:Dipolar spectral theory, Phys. Rev. B 60, 17071 (1999).

756. M. I. Vasilevskiy, E�ective Dielectric Response of CompositesContaining uniaxial inclusions, phys. stat.sol. (b) 219, 197(2000)


755. B. Houng, Tin doped indium oxide transparent conductingthin �lms containing silver nanoparticles by sol-gel techni-que, Appl. Phys. Lett. 87, 251922 (2005).

754. B. Houng and C.-J. Huang, Structure and properties of Agembedded aluminum doped ZnO nanocomposite thin �lmsprepared through a sol-gel process, Surface and CoatingsTechnology 201, 3188 (2006).

753. V. Kochergin, V. Zaporojtchenko, H. Takele, F. Faupel, H. Foll,Improved e�ective medium approach: Application to metalnanocomposites, J. of Applied Physics 101, 024302 (2007).

752. Wu, K.-Y., Wang, C.-C., Chen, D.-H., Preparation and con-ductivity enhancement of Al-doped zinc oxide thin �lmscontaining trace Ag nanoparticles by the sol-gel process,Nanotechnology 18, (30), 305604 (2007).

751. Faupel F, Zaporojtchenko V, Greve H, et al., Deposition of na-nocomposites by plasmas, Contributions to Plasma Physics47 (7): 537-544 (2007).

750. P. Szymczak, B. Cichocki, Diagrammatic approach to res-ponse problems in composite systems, J. Stat. Mech. (2008)P01025.

749. Faupel, F., Zaporojtchenko, V., Strunskus, T., Greve, H.,Schurmann, U., Takele, H., Hanisch, C., Chakravadhanula,V.S.K., Ni, N., Gerber, A., Quandt, E., Podschun, R. Functionalpolymer nanocomposites 16, 471 (2008)

748. F Zhang, L Yang, D Ge Multifractal formation studies oflayer-by-layer deposited silver-containing indium tin oxi-de nanocomposite �lms by GISAXS, Physica B: CondensedMatter 404, 2008 (2009)

747. Faupel, F., Zaporojtchenko, V., Strunskus, T., Elbahri, M.Metal-polymer nanocomposites for functional applications,(2010) Advanced Engineering Materials, 12 (12) pp. 1177-1190.

746. Esquivel-Sirvent, R; Schatz, GC Mixing rules and the Casimirforce between composite systems, PHYSICAL REVIEW A 83(4): Art. No. 042512 APR 20 2011

745. E. Lopez-Lopez, F. J. Sabina, R. Guinovart-Diaz, J. Bravo-Castillero, and R. Rodriguez-Ramos. E�ective permittivityof a �ber-reinforced composite with transversely isotropicconstituents, Journal of Electrostatics, (71): 791-800, 2013

744. Vieaud, J., Merchiers, O., Rajaoarivelo, M., (...), Ponsinet,V., Aradian, A. E�ective medium description of plasmo-nic couplings in disordered polymer and gold nanoparticlecomposites, 2016 Thin Solid Films 603, 452

743. Xue, X., Sukhotskiy, V., Furlani, E.P. Optimization of OpticalAbsorption of Colloids of SiO2atAu and Fe3O4atAu Nano-particles with Constraints, 2016 Scienti�c Reports 6, 35911

TIPO B (2):

742. J. L. Moran-Lopez, J. M. Sanchez, and R. Barrera, Optical Pro-perties of New Materials, pp. 241–255. in Advanced Topics inMaterials Science and Engineering, Springer US, 1993 doi:10.1007/978-1-4615-2842-5 15

741. R. G. Barrera, C. I. Mendoza, 3-Particle correlations in theoptical properties of granular composites, Solar EnergyMaterials and Solar Cells 32, 463 – 476 (1994).


Model approach to the calculation of the Si(111)- 7×7optical properties, Cecilia Noguez, A.I. Shkrebtii y R. DelSole, Surf Sci 318, 342 - 348, (1994)

TIPO A (10):

740. M. Roy and Y. Borensztein, Hydrogen adsorption on Si surfa-ces by real-time surface re�ectance spectroscopy, SurfaceScience, 331 - 333, 453 – 457 (1995).

739. J.F. McGlip, Optical characterization of semiconductor surfa-ces and interface, Progress in Surface Science 49, 1 (1995).

738. M. Rocca, Low-Energy EELS Investigation of Surface Electro-nic Excitations on Metals, Surface Science Reports, 22, 1 –71 (1995).

737. Z. Hammadi, M. Gauch, P. Muller y G. Quentel, Experimen-tal results from spectroscopic ellipsometry on the Si(111)-7×7 surface reconstruction: dielectric function determina-tion, Surface Science 341, 202 – 212 (1995).

736. McGilp JF, Optical second-harmonic generation as a semi-conductor surface and interface probe, Phys. Status SolidiA 175: (1) 153-167 (1999).

735. McGilp JF, Second-harmonic generation at semiconductorand metal surfaces, Surf. Rev. Lett. 6: (3-4) 529-558 (1999).

734. N. Arzate and B.S. Mendoza, Microscopic study of surfacesecond- harmonic generation from clean Si(111)c(4 × 2)

surface, Phys. Rev B 63, 125303(2001).

733. Tanaka M, Minami S, Shudo K, Yamakawa E, Isothermaldesorption process of Cl-covered Si(111) studied by surfa-ce di�erential re�ectivity spectroscopy Surface Science 527(1-3): 21-29 MAR 10 2003

732. Shudo K, Sasaki T, Tanaka A, Shirao T, Real-time monito-ring of the desorption process of chlorine-covered Si(111)-1x 1 surface with second-harmonic generation, Solid StateCommunications 127 (3): 203- 208 JUL 2003.


731. Spencer, BF; Graham, DM; Hardman, SJO; Seddon, EA; Clif-fe, MJ; Syres, KL; Thomas, AG; Stubbs, SK; Sirotti, F; Silly,MG; Kirkham, PF; Kumarasinghe, AR; Hirst, GJ; Moss, AJ; Hill,SF; Shaw, DA; Chattopadhyay, S; Flavell, WR Time-resolvedsurface photovoltage measurements at n-type photovoltaicsurfaces: Si(111) and ZnO(10(1)over-bar0), PHYSICAL REVIEWB, 88 (19):10.1103/PhysRevB.88.195301 NOV 4 2013

TIPO B (1):

730. R. Del Sole en Photonic Probes of Surfaces, Vol.2 pags.131-174, editado por P. Halevi, North-Holland (1995).


The disorder e�ects on the e�ective dielectric response ofa linear chain of polarizable spheres, Cecilia Noguez, yRuben G. Barrera, Physica A, 211 (4), 399 – 410 (1994).

TIPO A (6):

729. Cruz J., Jongitud E., Mendoza B.S., Second-harmonic gene-ration from disorded 1D chains of polarizable spheres, Phy-sica A 241, 12 – 16 (1997).

728. Cruz-Mandujano J, Mendoza BS Disorder e�ects on second-harmonic generation from one-dimensional arrays of po-larizable units Physi. Rev. B 62, 8438, (2000).

727. Reyes-Esqueda J, Darracq B, Garcia-Macedo J, et al. E�ect ofchromophore-chromophore electrostatic interactions in theNLO response of functionalized organic-in organic sol-gelmaterials, Opt. Commun. 198: (1-3) 207-215 OCT 15 2001


725. Rico-Garcia, JM; Lopez-Alonso, JM; Aradian, A Toy model todescribe the e�ect of positional blocklike disorder in meta-materials composites, JOURNAL OF THE OPTICAL SOCIETYOF AMERICA B-OPTICAL PHYSICS, 29 (1):53-67; JAN 2012

724. Taylor, RW; Esteban, R; Mahajan, S; Coulston, R; Scherman,OA; Aizpunia, J; Baumberg, JJ Simple Composite DipoleModel for the Optical Modes of Strongly-Coupled Plas-monic Nanoparticle Aggregates, JOURNAL OF PHYSICALCHEMISTRY C, 116 (47):25044-25051; 10.1021/jp308986cNOV 29 2012


Microscopic theory of electron transitions at Si(111)-7×7:optical properties and energy-loss spectra, Cecilia Noguez,A.I. Shkrebtii y R. Del Sole, Surf Sci 331 - 333, 1349 – 1354(1994)

TIPO A (20):

723. J.F. McGlip, Optical characterization of semiconductor sur-face and interface, Progress in Surface Science 49, 1 (1995).

722. Zorn M, Jonsson J, Richter W, Zettler JT, Ploska K, Anisotro-pic re�ectance from semiconductor surfaces for in-situ mo-nitoring in epitaxial growth systems, Physica Status SolidiA-Applied Research 152 (1): 23-34 NOV 16 1995

721. K. Pedersen and P. Morgen, Dispersion of 2nd harmonic ge-neration on Si(111)-7×7, Physical Review B 52, R2277 (1995).

720. McGlip J.F. A review of optical 2nd-Harmonic and Sum-Frequency Generation at Surfaces and Interfaces, Journalof Physics D: Applied Physics 29 1812 (1996).

719. K. Pedersen and P. Morgen, Optical 2nd-Harmonic Genera-tion Spectrsocopy on Si(111)-7×7, Surf. Sci. 377, 393 (1997).

718. D. Fick, R. Veith, H. D. Ebinger, H. J. Jansch, C. Weindel, H.Winnefeld, and J. J. Paggel Electron correlations in the cleanand hydrogen-covered Si(111)-(7×7) surface at extremelylow Li coverages, Phys. Rev. B 6087831999.

717. McGilp JF, Optical second-harmonic generation as a semi-conductor surface and interface probe, Phys Status Solidi A175: (1) 153-167 (1999).

716. McGilp JF, Second-harmonic generation at semiconductorand metal surfaces, Surf Rev Lett 6: (3-4) 529-558 (1999).

715. Suzuki T, Surface-state transitions of Si(111)-7×7 probedusing nonlinear optical spectroscopy, Phys Rev B 61, R5117-R5120 (2000).

714. Shudo K, Takeda S, Munakata T, Resonant surface-statetransitions of Si(111)-7×7 measured with two-photon pho-toemission spectroscopy, Phys Rev B 65 (7): art. no. 075302(2002)

713. Tanaka M, Minami S, Shudo K, Yamakawa E, Isothermaldesorption process of Cl-covered Si(111) studied by surfacedi�erential re�ectivity spectroscopy Surf Science 527 (1-3):21-29 (2003)

712. M. Tanaka, E. Yamakawa, T. Shirao, and K. Shudo, Reactivityof halogens on a Si(111) surface studied by surface di�eren-tial re�ectivity, Phys. Rev. B 68, 165411 (2003).

711. K. Shudo, H. Washio, and M. Tanaka, .Reactivity of restatomsand adatoms in Cl adsorption at a Si(111)-7 × 7 surface, J.Chem. Phys.119, 13077 (2003).

710. R. Schillinger, C. Bromberger, H. J. Jansch, H. Kleine, O.Kuhlert, C. Weindel, and D. Fick, Metallic Si(111)-(7x7)-reconstruction: A surface close to a Mott-Hubbard metal-insulator transition, Phys. Rev. B 72, 115314 (2005).


709. Mogawa, Y., Ohno, S.-Y., Shudo, K.-I., Tanaka, M.; Study ofSi(111) surface re�ection spectrum by cluster calculation, J.of the Vacuum Society of Japan 49 (3), pp. 138-140 (2006).

708. Takizawa, J.-I., Koizumi, J.-Y., Ohno, S.-Y., Shudo, K.-I., Tana-ka, M., Dependence of surface di�erential re�ectance spec-tra on the incident photon energy during initial oxidation onSi (001), J. of the Vacuum Society of Japan 49 (5), pp. 323-326 (2006).

707. M. Tanaka, K. Shudo and S. Ohno, Nanometer-Scale Struc-ture Formation on Solid Surfaces , in Advances in MaterialsResearch, Nano- and Micromaterials, pages 19 – 96, Eds.K Ohno, M Tanaka, J Takeda, Y Kawazoe, Springer BerlinHeidelberg, 2008.

706. Pedersen, K Second harmonic generation spectroscopy onSi surfaces and interfaces, PHYSICA STATUS SOLIDI B-BASICSOLID STATE PHYSICS 247 (8): 2002-2011 AUG 2010


704. Shudo, K.-I. Introduction: Ultra-fast response of ultra-thinmaterials on solid surfaces, 2014, Springer Series in OpticalSciences 180 , pp. 1-25

TIPO B (1):

703. R. Del Sole en Photonic Probes of Surfaces, Vol.2 pags.131-174, editado por P. Halevi, North-Holland (1995).


Optical spectroscopy study of hydrogenation of theSi(111)-7×7 surface, M. Roy, C. Beitia, Y. Borensztein, A.I.Shkrebtii, Cecilia Noguez, y R. Del Sole, Applied Surf Sci104/105, 158 (1996)

TIPO A (4):

702. McKelvy M.L., Britt T.R. Davis B.L., Gillie J.K., Graves F.B., andLentz L. A., Infrared spectroscopy, Analytical Chemistry 70,119R – 177R (1998).

701. Odasso S, Seehofer L, Johnson RL LEED, AES, and STM studyof an ideal Si(111)-(1×1): H surface prepared by in situ ato-mic hydrogen exposure of the Pb induced (

√3 ×√3)R30

degrees-beta phase: �rst experimental evidence of a nonreversible transformation, Applied Surf Science 137: (1-4) 71-77 (1999).

700. Dotsenko, S.A., Galkin, N.G., Gouralnik, A.S., Koval, L.V.,In situ di�erential re�ectance spectroscopy study of earlystages of β-FeSi2 silicide formation, e-Journal of Surfa-ce Science and Nanotechnology 3, 8 April 2005, DOI:10.1380/ejssnt.2005.113.

699. Imada, H., Ohta, M., Yamamoto, N. Atom-resolved lumi-nescence of Si(111)-7x7 induced by scanning tunnelingmicroscopy, Applied Physics Express 3, art. no. 045701(2010)


Anisotropic optical response of the diamond (111)-2×1surface, Cecilia Noguez, y S.E. Ulloa, Phys Rev B 53, 13138– 13145, (1996)

TIPO A (5):

698. M Marsili, O Pulci, F Fuchs, F Bechstedt and R Del Sole,Many body e�ects in the electronic and optical propertiesof the (1 1 1) surface of diamond, Surface Science, 601 (18),p.4097-4101, (2007)

697. M Marsili, O Pulci, F Bechstedt, and R Del Sole, Tight-bindingcalculations of quasiparticle wave functions for C(111)2?1,Phys. Rev. B 78 205414 (2008)

696. F L Perez-Sanchez, F Perez-Rodrıguez, Electromagnetic ex-citation of phonons at C(001) surfaces, Journal of Physics:Condensed Matter 21 , 355010 (2009)

695. Ivanov, AV Nonlinear light absorption on the surface of atransparent wide-gap crystal: I. Direct interband transitions,OPTICS AND SPECTROSCOPY, 111 (5):786-797; NOV 2011

694. Skrypnyk, Y.V. Electronic spectrum of atomic chain withFano-Anderson impurities, 2015 Fizika Nizkikh Temperatur41 (5), pp. 501-507


Size dependence of the optical properties of siliconclusters, Cecilia Noguez, J. Song, S.E. Ulloa, D.A. Drabold yS.H. Yang, Superlatt & Microstructures 20, 405 – 410 (1996)

TIPO A (5):

693. Iitaka T., Nomura S., Hirayama H. Zhao X.W. Aoyagi Y. Su-gano T., Calculating the linear response functions of no-ninteracting electrons with dependet Schrodinger equation,Phys Rev E 56, 1222 – 1229 (1997)

692. Iitaka T, Nomura S, Hirayama H, Zhao XW, Aoyagi Y, SuganoT., Calculating the density of states and the linear respon-se functions with time-dependent Schroedinger equations,Microelectronic Engineering 43, 459 (1998)

691. Wang XQ, Li JS, Chen Q, et al. Aluminum-induced crystalliza-tion during deposition of silicon �lms by inductively coupledplasma CVD, Acta Physica Sinica 54 (1): 269 (2005)


690. Chakraborty, S; Rajesh, C; Mahamuni, S; Ghaisas, SV Quan-tum Con�nement E�ect in Pristine and Oxygen Covered Sili-con Nanocrystals with Surface States, JOURNAL OF COMPU-TATIONAL AND THEORETICAL NANOSCIENCE, 8 (9):1739-1743; 10.1166/jctn.2011.1876 SEP 2011

689. Gomez, M., Gonzalez, P., Ortega, J., Flores, F. Si dielectricfunction in a local basis representation: Optical properties,local �eld e�ects, excitons, and stopping power, PhysicalReview B - Condensed Matter and Materials Physics Volume90, Issue 20, 17 November 2014, Article number 205210

TIPO B (2):

688. Yang S.H. Ab initio local-orbital density-functional methodfor transition metals and semiconductors, Phys. Rev. B 58,1832 (1998)

687. Yu M, Ulloa SE, Drabold DA, Local-basis quasiparticlecalculations and the dielectric response function of Siclusters, Phys. Rev. B 61, 2626-2631 (2000)


First-principles studies of hydrogenated Si(111)-7×7, D.R.Alfonso, Cecilia Noguez, D.A. Drabold y S.E. Ulloa, PhysRev B 54, 8028 – 8032 (1996)

TIPO A (23):

686. Que J.Z., Radny M.W., Smith P.V.K., Hartree-Fock-DFT clustercalculations of the Si(111)-7×7:H system, Surf. Sci. 391, 161(1997)

685. D. Fick, R. Veith, H. D. Ebinger, H. J. Jansch, C. Weindel, H.Winnefeld, and J. J. Paggel Electron correlations in the cleanand hydrogen-covered Si(111)-(7x7) surface at extremely lowLi coverages, Phys. Rev. B 6087831999

684. Yang H, Greene EF, Symmetry changes in He scattering froma Si(111) surface exposed to H atoms, Surf Sci 440, 327(1999)

683. Oura K, Lifshits VG, Saranin AA, Zotov AV, Katayama M., Hy-drogen interaction with clean and modi�ed silicon surfaces,Surf Sci Reports 35, 1-69 (1999)

682. Que JZ, Radny MW, Smith PV, Application of the extendedBrenner potential to the Si(111)7 x 7: H system II: periodiccalculations, Surf Sci 444 140 (2000)

681. Que JZ, Radny MW, Smith PV, Application of the extendedBrenner potential to the Si(111)7 x 7: H system I: cluster cal-culations, Surf Sci 444 123 (2000)

680. Sonnet P, Stau�er L, Minot C., Adsorption and di�usion me-chanisms of Pb on Si(111)-(7x7) in the initial stages of Pbchemisorption, Surf Sci 407 121 (1998)

679. Losio R, Altmann KN, Himpsel FJ, Fermi surface of Si(111)7X7,Phys Rev B 61, 10845 (2000)

678. U. Rothlisberger, 15 years of Car-Parrinello Simulations inPhysics, Chemistry and Biology, page 33, in ComputationalChemistry: Reviews of Current Trends (Computational Che-mistry: Reviews of Current Trends, Vol 6) Ed. J. Leszczynski,World Scienti�c Publishing Company (2001).

677. Winnefeld H, Czanta M, Fahsold G, Jansch HJ, Kirchner G,Mannstadt W, Paggel JJ, Platzer R, Schillinger R, Veith R,Weindel C, Fick D., Electron localization in (7×7) recons-tructed and hydrogen-covered Si (111) surfaces as seen byNMR on adsorbed Li, Phys Rev B 65, art. no.-195319 (2002)

676. C. Weindel, H. J. Jansch, G. Kirchner, H. Kleine, J. J. Pag-gel, J. Roth, H. Winnefeld, and D. Fick, Li-induced metal-semiconductor-metal transitions on the Si(111)-(7x7) surface:A work function, photoemission, and NMR study, Phys. Rev.B 71, 115318 (2005).

675. R. Schillinger, C. Bromberger, H. J. Jansch, H. Kleine, O.Kuhlert, C. Weindel, and D. Fick, Metallic Si(111)-(7x7)-reconstruction: A surface close to a Mott-Hubbard metal-insulator transition, Phys. Rev. B 72, 115314 (2005).

674. A. Markovits, P. Sonnet, L. Stau�er, and C. Minot, Reacyivityat silicon surfaces Si(110)−2 × 2 and Si(111)−7 × 7, page149 in Quantum Systems in Chemistry and Physics: Volume1: Basic Problems and Model Systems Volume 2: AdvancedProblems and Complex Systems Granada, Spain (1997) inTheoretical Chemistry and Physics, Editors A. Hernandez-Laguna, J. Maruani , R. McWeeny , S. Wilson Springer; 1edition (2007)

673. F. Fenske, S. Schulze, M. Hietschold and M. Schmidbauer,Structural investigations of homoepitaxial Si �lms grown atlow temperature by pulsed magnetron sputtering on Si(111)substrates, Thin Solid Films 516, 4777 (2008)

672. Kurahashi, M., Pratt, A., Yamauchi, Y., Spin polarization of theSi(111)-7x7 surface: A study with a spin-polarized metastablehelium atom beam, Surface Science, 605 (5-6), p.612, Mar2011


670. Gruyters, M., Pingel, T., Berndt, R. Subsurface sites of Fe inH/Si(111) studied by scanning tunneling microscopy, 2013,Phys Rev B 87 (16) , art. no. 165405

669. Muir, J.M.R., Idriss, H. Computational study of cysteine in-teraction with the rutile TiO2 (110) surface, 2013, SurfaceScience 617 , pp. 60-67


668. Beitia C., Preyss W., Del Sole R., Borenzstein Y., Adsorptionkinetics of H on Si(111)-7×7 by means of surface di�erentialre�ectivity, Phys. Rev. B 56, R4371 (1997)

667. Del Sole R., Present status and capabilities for the theoreticalcalculation of surface optical properties, Thin Solid Films313, 527 (1998)

666. Mejia JE, Mendoza BS, Palummo M, Onida G, Del Sole R,Bergfeld S, Daum W., Surface second-harmonic generationfrom Si(111)(1x1)H: Theory versus experiment, Phys Rev B 66,art. no. 195329 (2002)

665. Anderson, S.M., Tancogne-Dejean, N., Mendoza, B.S., Ve-niard, V. Improved ab initio calculation of surface second-harmonic generation from Si(111)(1x1):H, 2016 Physical Re-view B 93 (23), 235304

664. Motevalli, B., Taherifar, N., Wu, B., Tang, W., Liu, J.Z. A den-sity functional theory computational study of adsorption ofDi-Meta-Cyano Azobenzene molecules on Si (111) surfaces,2017 Applied Surface Science 422, pp. 557-565

TIPO B (1):

663. Lewis, J.P., Jelınek, P., Ortega, J., Demkov, A.A., Trabada,D.G., Haycock, B., Wang, H., (...), Drabold, D.A. Advancesand applications in the FIREBALL ab initio tight-bindingmolecular-dynamics formalism, Physica Status Solidi (B)Basic Research 248 (9), pp. 1989-2007


Theory of the acoustic signature of topological andmorphological defects in SiC/ porous SiC laminatedceramics, R. Esquivel-Sirvent y Cecilia Noguez, J Appl Phys82, 3618 – 3620 (1997)

TIPO A (4):

662. Qi GJ, Yang SL, Bai SX, Zhao X, A study of the band structurein two-dimensional phononic crystals based on plane-wavealgorithm, Acta Physica Sinica 52, 668 (2003)

661. Rodriguez-Ramos R, Monsivais G, Otero JA, Calas H, GuerraV, Stern C, Presence of Stark ladders in scattering of shearhorizontal piezoelectric waves, J of Applied Phys 96, 1178(2004)

660. Qian ZH, Jin F, Wang ZK, Kishimoto K, Dispersion relationsfor SH-wave propagation in periodic piezoelectric composi-te layered structures, Int J of Engineering Sci 42, 673 (2004)

659. Monsivais G, Otero JA, Calas H, Surface and shearhorizontal waves in piezoelectric composites, Phys Rev B71, Art. No. 064101 (2005)


First-principles calculations of optical properties: applica-tion to silicon clusters, Cecilia Noguez, y S.E. Ulloa, PhysRev B 56, 9719 (1997)

TIPO A (10):

658. Yo�e AD, Semiconductor quantum dots and related systems:electronic, optical, luminescence and related properties oflow dimensional systems, Adv Phys 50 (1) 1-208 (2001)

657. Katircioglu S, Erkoc S, Structural and electronic propertiesof bare and hydrogenated silicon clusters, Physica E 9, 314(2001)

656. Weissker HC, Furthmuller J, Bechstedt F. Optical propertiesof Ge and Si nanocrystallites from ab initio calculations.II. Hydrogenated nanocrystallites, Phys Rev B 65, art. no.-155328 (2002)

655. Weissker HC, Furthmuller J, Bechstedt F., Validity of e�ective-medium theory for optical properties of embedded na-nocrystallites from ab initio supercell calculations, Phys RevB 67, art. no. 165322 (2003)

654. Weissker HC, Furthmuller J, Bechstedt F., Structural relaxa-tion in Si and Ge nanocrystallites: In�uence on the electro-nic and optical properties, Phys Rev B 67, art. no. 245304(2003)

653. Katircioglu S, Electronic structure of Ge-5, Ge-17, Ge-5-O, and Ge-5-SiO2 nanoparticles, J of Molecular Structure-THEOCHEM 680, 83( 2004)

652. Encyclopedia of Nanoscience and Nanotechnology Vol. 8,Edited by H.S. Nalwa, Oxide Nanoparticles by K.P. Jayade-van, T.Y. Tseng, American Scienti�c Publishers, 2004.

651. Meurice, N. , Sandre, E. , Aslanides, A., Vercauteren, D.P. Sim-ple theoretical estimation of the dielectric strength of gases,IEEE Transactions on Dielectrics and Electrical Insulation 11,946 (2004).

650. Ranber Singh, E�ect of hydrogen on ground state propertiesof silicon clusters (SinHm; n = 11–15, m = 0–4): a den-sity functional based tight binding study, J. Phys.: Condens.Matter 20 (2008) 045226.

649. Mokkath, J.H., Schwingenschlogl, U. Photoabsorption spec-tra of (Mo/W) at Au12Si60 clusters from time-dependentDFT calculations, 2013, Journal of Physical Chemistry C 117(45) , pp. 23938-23941


Multipolar and Disorder e�ects on the e�ective dielectricproperties of granular composites, Cecilia Noguez, y


Ruben G. Barrera, Phys Rev B 57, 302 (1998)

TIPO A (14):

648. Shaykevich I.A., Kolesnyk P.V., Optical properties, form ofgranules and electronic parameters of binary Al/Cr compo-sites, Semiconductor Physics, Quantum Electronics & Op-toelectronics 3, 77 (1999).

647. Lazzari R, Simonsen I, Bedeaux D, et al. Polarizability oftruncated spheroidal particles supported by a substrate:model and applications Eur Phys J B 24, 267 (2001)

646. Lazzari R, Simonsen I. GRANFILM: a so�ware for calculatingthin-layer dielectric properties and Fresnel coe�cients ThinSolid Films 419, 124 (2002)

645. A. R. McGurn, A. R. Day, D. J. Bergman, L. C. Davis, andM. F. Thorpe, Spectral densities of embedded interfaces incomposite materials, Phys. Rev. B 70, 144205 (2004)

644. Sampsa Riikonen, Isabel Romero, and F. J. Garcıa de Abajo,Plasmon tunability in metallodielectric metamaterials, Phys.Rev. B 71, 235104 (2005)

643. J Toudert, D Babonneau, S Camelio, T Girardeau, F Yubero, JP Espinos and A R Gonzalez-Elipe, Using ion beams to tunethe nanostructure and optical response of co-deposited Ag: BN thin �lms, J. Phys. D: Appl. Phys. 40, 4614 (2007)

642. Sanchez-Valencia, J. R.; Borras, A.; Barranco, A.; Rico, V.J.; Espinos, J. P.; Gonzalez-Elipe, A. R. Preillumination ofTiO2 and Ta2O5 Photoactive Thin Films As a Tool to Tailorthe Synthesis of Composite Materials, Langmuir 24, 9460(2008).

641. Anghinol�, L; Moroni, R; Mattera, L; Canepa, M; Bisio, F Flexi-ble Tuning of Shape and Arrangement of Au Nanoparticlesin 2-Dimensional Self-Organized Arrays: Morphology andPlasmonic Response, JOURNAL OF PHYSICAL CHEMISTRY C115 (29): 14036-14043 1 2011


639. Rico-Garcia, JM; Lopez-Alonso, JM; Aradian, A Toy model todescribe the e�ect of positional blocklike disorder in meta-materials composites, JOURNAL OF THE OPTICAL SOCIETYOF AMERICA B-OPTICAL PHYSICS, 29 (1):53-67; JAN 2012

638. Taylor, RW; Esteban, R; Mahajan, S; Coulston, R; Scherman,OA; Aizpunia, J; Baumberg, JJ Simple Composite DipoleModel for the Optical Modes of Strongly-Coupled Plasmo-nic Nanoparticle Aggregates, JOURNAL OF PHYSICAL CHE-MISTRY C, 116 (47):25044-25051; 10.1021/jp308986c NOV29 2012

637. Pereira, R.M.S., Pereira, P., Smirnov, G., Vasilevskiy, M.I. Pro-bing spatial correlations in a system of polarizable na-noparticles via measuring its optical extinction spectrum,2013, EPL 102 (6) , art. no. 67001

636. Pereira, RMS; Borges, J; Pereira, PAS; Smirnov, GV; Vaz, F; Ca-valeiro, A; Vasilevskiy, MI Optical response of fractal aggre-gates of polarizable particles, Proceedings of SPIE - The In-ternational Society for Optical Engineering 9286, 92865M9286 10.1117/12.2060292 2014, Proceedings of SPIE

635. Pereira, RMS; Borges, J; Peres, FCR; Pereira, PAS; Smirnov,GV; Vaz, F; Cavaleiro, A; Vasilevskiy, MIE�ect of clusteringon the surface plasmon band in thin �lms of metallicnanoparticles, 2015 Journal of Nanophotonics 9 (1), 093796


Theory of electron energy loss for anisotropic systems:application to GaN (1010), R. Esquivel-Sirvent & CeciliaNoguez, Phys Rev B 58, 7367 – 7372 (1998)

TIPO A (8):

634. Gavrilenko VI, Wu RQ, Energy loss spectra of group III nitri-des Appl Phys Lett 77, 3042 (2000)

633. Djurisic AB, Chan Y, Li EH, Progress in the room-temperatureoptical functions of semiconductors, Mat Sci Eng R 38, 237(2002)

632. A.B. Djurisic and E.H. Li, Optical functions of III-V nitrides-Calculations, page 115 in III-Nitride Semiconductors: OpticalProperties”, Volume II (Optoelectronic Properities of Semi-conductors and Superlattices) by Mahmoud Omar Manas-reh ,Taylor and Francis books, inc (2002)

631. S H Yang, S H Ahn, M S Jeong, K S Nahm, E-K Suh, K Y Lim,Structural and optical properties of GaN �lms grown by thedirect reaction of Ga and NH3 in a CVD reactor, Solid-StateElectronics, Volume 44, Issue 9, 1 September 2000, Pages1655-1661.

630. L. Carmella, G. Onida, C. Hogan, Dielectric Response andElectron energy loss spectra of an oxidized Si(100)-(2x2)surface, (2006) Proceedings of the 39 course of the inter-national school of solid state physics.

629. C Hogan, M Palummo, R Del Sole, Theory of dielectric scree-ning and electron energy loss spectroscopy at surfaces,Comptes Rendus Physique 10, 560 (2009)

628. Caramella, L; Hogan, C; Onida, G; Del Sole, R Oxidationof dimers at the Si(100) surface studied by �rst-principlessimulation of high-resolution EELS, PHYSICA STATUS SOLIDIB-BASIC SOLID STATE PHYSICS 247 (8): 1946-1950 AUG 2010


627. Hogan, C., Caramella, L., Onida, G. Simulation of theoxidation pathway on Si(100) using high-resolution EELS,(2012) Physica Status Solidi (B) Basic Research, 249 (6) pp.1132-1139.


Spectroscopic theoretical study of the atomic reconstructionof GaN (1010), Cecilia Noguez, Phys Rev B 58, 12641 (1998)

TIPO A (10):

626. Nahm KS, Yang SH, Ahn SH, Structural and optical charac-terization of thick GaN �lms grown by the direct reactionof metal Ga and NH3 in CVD reactor, Korean J of ChemicalEng, 17, 105 (2000)

625. Yang SH, Nahm KS, Hahn YB, Lee YS, Jeong MS, Suh EK,High-temperature vapor-phase growth and characterizationof thick GaN by the direct reaction of Ga and NH3, J of theKorean Phys Society 36, 182 (2000)

624. Yang SH, Ahn SH, Jeong MS, Nahm KS, Suh EK, Lim KY Struc-tural and optical properties of GaN �lms grown by the directreaction of Ga and NH3 in a CVD reactor Solid-Sate Elec-tronics 44, 1655 (2000)

623. Alexandrov D, Excitons of the structure in wurtzite InxGa1-xNand their properties J Cryst Growth 246, 325 (2002)

622. Di Carlo A Microscopic theory of nanostructured semicon-ductor devices: beyond the envelope-function approxima-tion, Semicond Sci Tech 18, R1 (2003)

621. Velasco VR, Gaggero-Sager LM, Tutor J. Tight-binding calcu-lation of the electronic band structure of GaN, AlN and BN(001) ideal surfaces, Surf Sci 529, 267 (2003)

620. A. Pecchia and A. Di Carlo, Atomistic theory of transport inorganic and inorganic nanostructures, Rep. Prog. Phys. 671497-1561 (2004).

619. N. Ouchani, A. Nougaoui, H. Aynaou, D. Bria, E.H. El Boudou-ti, V.R. Velasco, A. Daoudi, Acoustic waves in (110) layeredstructures, Surface Science, 602 2107 (2008)

618. Janicki, L., Misiewicz, J., CywiOski, G., (...), Skierbiszewski, C.,Kudrawiec, R. Surface potential barrier in m-plane GaN stu-died by contactless electrore�ectance, 2016 Applied PhysicsExpress 9 (2), 021002

617. Bermudez, V.M. The fundamental surface science ofwurtzite gallium nitride, 2017 Surface Science Reports72(4), pp. 147-315


Electron energy-loss spectra of non-polar GaN surfacesCecilia Noguez, Phys Status Solidi (a) 175, 57 (1999)

TIPO A (5):

616. Gutierrez-Sosa A, Bangert U, Harvey AJ, Flavell WR, JacobsK, Moermann I, Rizzi A, Localised near-band gap studiesin nitrides via EELS, in Inst Phys Conf Ser (169) 255-258:Microscopy of Semiconducting Materials 2001, Editors A.GCullis, J.L Hutchinson Taylor & Francis (2002).

615. Gutierrez-Sosa A, Bangert U, Harvey AJ, Fall CJ, Jones R,Briddon PR, Heggie MI, Band-gap-related energies of th-reading dislocations and quantum wells in group-III nitride�lms as derived from electron energy loss spectroscopy,Phys Rev B 66, art. no. 035302 (2002)

614. Janicki, L., Misiewicz, J., CywiOski, G., (...), Skierbiszewski, C.,Kudrawiec, R. Surface potential barrier in m-plane GaN stu-died by contactless electrore�ectance, 2016 Applied PhysicsExpress 9 (2), 021002

613. Janicki, L; Misiewicz, J; Cywinski, G; Sawicka, M; Skierbis-zewski, C; Kudrawiec, R Surface potential barrier in m-planeGaN studied by contactless electrore�ectance, APPLIED PHY-SICS EXPRESS, 9 (2):10.7567/APEX.9.021002 FEB 2016



Optical properties of a spheroid-substrate system, C. E.Roman, Cecilia Noguez, R. G. Barrera, Phys Status Solidi(a) 175, 393-398 (1999)

TIPO A (3):

611. Sun, Y.-S., Jheng, C.-Y. Surface plasmon resonance and die-lectric core e�ects on two-dimensional periodic arrays ofsilver nanospheres in a square lattice embedded at di�e-rent depths in a silica substrate, Japanese Journal of AppliedPhysics Volume 52, Issue 12, December 2013, Article num-ber 122001


609. Hu, C.-C., Tsai, Y.-T., Yang, W., Chau, Y.-F. E�ective Couplingof Incident Light Through an Air Region into an S-ShapePlasmonic Ag Nanowire Waveguide with Relatively Long


Propagation Length, Plasmonics Volume 9, Issue 3, June2014, Pages 573-579


Substrate e�ects on the optical properties of a spheroidalnanoparticle, C. E. Roman, Cecilia Noguez, R. G. BarreraPhys Rev B, 61, 10427 (2000)

TIPO A (28):

608. Lazzari R, Simonsen I, Bedeaux D, et al. Polarizability oftruncated spheroidal particles supported by a substrate:model and applications Eur Phys J B 24: (2) 267-284 NOV2001

607. Dvoynenko, M.M., Goncharenko, A.V., Lozovski, V.Z., Venger,E.F., Optical spectroscopy of small particles near a surface, Proceedings of SPIE - The International Society for OpticalEngineering 938, 41 (2001)

606. Tuncer E, Nettelblad B, Gubanski SM, Non-Debye dielectricrelaxation in binary dielectric mixtures (50-50): Random-ness and regularity in mixture topology, J Appl Phys 92,4612 (2002)

605. Lazzari R, Roux S, Simonsen I, et al. Multipolar plas-mon resonances in supported silver particles: The caseof Ag/alpha-Al2O3(0001), Phys Rev B 65, art. no. 235424(2002)

604. Lazzari R, Simonsen I, Jupille J. Onset of charge localisa-tion on coupling multipolar absorption modes in supportedmetal particles, Europhys Lett 61, 541 (2003)

603. Lazzari R, Jupille J, Layet JM. Electron-energy-loss chan-nels and plasmon con�nement in supported silver particles,Phys Rev B 68, Art. No. 045428 (2003)

602. A. R. McGurn, A. R. Day, D. J. Bergman, L. C. Davis, andM. F. Thorpe, Spectral densities of embedded interfaces incomposite materials, Phys Rev B 70, 144205 (2004)

601. G. Xu, M. Tazawa, P. Jin and S. Nakao, Surface plasmon re-sonance of sputtered Ag �lms: substrate and mass thicknessdependence, Applied Physics A 80, 1535 (2005)

600. V. Chegel, Yu. Chegel, M. Guiver, A. Lopatynskyi, O. Lo-patynska, V. Lozovski, 3D - quanti�cation of biomolecularcovers using surface plasmon-polariton resonance experi-ment Sensors and Actuators B: Chemical 134, 66 (2008)

599. Abeysinghe, DC; Chen, WB; Zhan, QW; Nelson, RE, Polymerunderlayer assisted dewetting of a top metal nano�lm, Na-notechnology 20, 475301 (2009)

598. DAgostino, S., Della Sala, F. Electromagnetic modelling ofthe optical behaviour of silver nanospheres on dielectricsubstrates: The role of a silver bu�er layer Superlatticesand Microstructures 47, 55 (2010)

597. Michael Quinten Optical Properties of NanoparticleSystems: Mie and beyond, 2011 Wiley-VCH VerlagGmbH & Co. KGaA, Print ISBN: 9783527410439, DOI:10.1002/9783527633135

596. Valamanesh, M; Borensztein, Y; Langlois, C; Lacaze, E Subs-trate E�ect on the Plasmon Resonance of Supported FlatSilver Nanoparticles, OURNAL OF PHYSICAL CHEMISTRY C115 (7): 2914-2922 FEB 24 2011

595. Letnes, PA; Simonsen, I; Mills, DL Substrate in�uence on theplasmonic response of clusters of spherical nanoparticles,PHYSICAL REVIEW B 83 (7): Art. No. 075426 FEB 23 2011

594. Mendoza-Galvan, A., Jarrendahl, K., Dmitriev, A., Pakizeh,T., Kall, M., Arwin, H. Optical response of supported goldnanodisks, 2011 Optics Express 19 (13), pp. 12093-12107

593. Anghinol�, L; Moroni, R; Mattera, L; Canepa, M; Bisio, F Flexi-ble Tuning of Shape and Arrangement of Au Nanoparticlesin 2-Dimensional Self-Organized Arrays: Morphology andPlasmonic Response, JOURNAL OF PHYSICAL CHEMISTRY C115 (29): 14036-14043 2011

592. Chau, YF; Jiang, ZH Plasmonics E�ects of Nanometal Embed-ded in a Dielectric Substrate, PLASMONICS 6 (3): 581-5892011


590. Berkovitch, N., Ginzburg, P., Orenstein, M Nano-plasmonicantennas in the near infrared regime, Journal of PhysicsCondensed Matter 24 (7) , art. no. 073202 2012

589. Skelton, S.E., Sergides, M., Patel, R., Karczewska, E., Ma-rago, O.M., Jones, P.H. Evanescent wave optical trappingand transport of micro- and nanoparticles on tapered op-tical �bers, 2012, Journal of Quantitative Spectroscopy andRadiative Transfer 113 (18) , pp. 2512-2520

588. Lerme, J., Bonnet, C., Broyer, M., Cottancin, E., Manchon, D.,Pellarin, M. Optical properties of a particle above a dielec-tric interface: Cross sections, benchmark calculations, andanalysis of the intrinsic substrate e�ects, 2013 Journal ofPhysical Chemistry C 117 (12) , pp. 6383-6398

587. Zhou, Y., Huang, A., Li, Y., Ji, S., Gao, Y., Jin, P. Surface plas-mon resonance induced excellent solar control for VO2 atSiO2 nanorods-based thermochromic foils, 2013, Nanoscale5 (19) , pp. 9208-9213



585. Lazzari, R., Jupille, J., Cavallotti, R., Simonsen, I. Model-freeunraveling of supported nanoparticles plasmon resonancemodes, (2014) Journal of Physical Chemistry C, 118 (13) pp.7032-7048.

584. Lazzari, R; Simonsen, I; Jupille, J Interfacial Susceptibi-lities in Nanoplasmonics via Inversion of Fresnel Coef-�cients, PLASMONICS, 9 (2):261-272; 10.1007/s11468-013-9619-6 APR 2014

583. Sikdar, D., Rukhlenko, I.D., Cheng, W., Premaratne, M. Tuna-ble Broadband Optical Responses of Substrate-SupportedMetal/Dielectric/Metal Nanospheres, Plasmonics Volume 9,Issue 3, June 2014, Pages 659-672

582. Niklasson, GA; Lansaker, PC; Li, SY; Granqvist, CG Plas-monic thin �lms for application in improved chromogenicwindows, INERA CONFERENCE 2015: LIGHT IN NANOSCIEN-CE AND NANOTECHNOLOGY (LNN 2015), 682 10.1088/1742-6596/682/1/012003 2016 Book Series: Journal of PhysicsConference Series

581. Iati, MA; Lidorikis, E; Saija, R, Modeling of Enhanced Elec-tromagnetic Fields in Plasmonic Nanostructures, Edited by:Gucciardi PG; DeLaChapelle ML; LidgiGuigui N; HANDBOOKOF ENHANCED SPECTROSCOPY, 101-139; 2016

TIPO B (1):

580. C. E. Roman-Velazquez, B. E. Sernelius, Numericalstudy of the e�ect of structure and geometry on vander Waals forces, J. Phys. A: Math. Theor. 41. (2008) 164008


Origin of optical anisotropies of non-polar GaN surfaces,Cecilia Noguez, Phys Rev B, 62, 2681 (2000)

TIPO A (10):

579. Cappellini, G., Satta, G., Palummo, M., Onida, G. Ab-initiocalculation of the optical properties of BN(110) surface, Ma-terials Research Society Symposium - Proceedings 677,AA6.2.1 (2001).

578. Cappellini G, Satta G, Palummo M, et al. Anisotropy of sur-face optical properties at BN(110): An ab initio study, PhysRev B 66, art. no. 115412 (2002)

577. Velasco VR, Gaggero-Sager LM, Tutor J. Tight-binding calcu-lation of the electronic band structure of GaN, AlN and BN(001) ideal surfaces, Surf Sci 529, 267 (2003)

576. G. Cappellini, G. Satta. M. Palummo, G. Onida, Ab initio op-tical properties of BN(110) and GaN(110) surfaces, page 44,in Epioptics-7: Proceedings of the 24th Course of the In-ternational School of Solid State Physics, Erice, Sicily, Italy20-26 July 2002 (Science and Culture Series-Physics), Ed.A. Cricenti, World Scienti�c Publishing Company (2004).

575. Velasco VR, Tutor J, Rodriguez-Coppola H, Electronic structu-re of (001) GaN/AlN quantum wells, Surf Sci 565, 259 (2004)

574. P Weightman, D S Martin, R J Cole and T Farrell, Re�ectionanisotropy spectroscopy, Rep. Prog. Phys. 68 (2005) 1251

573. L. Ivanova, S. Borisova, H. Eisele, M. Dahne, A. Laubsch,and Ph. Ebert, Surface states and origin of the Fermi levelpinning on nonpolar GaN(1100) surfaces, Appl. Phys. Lett.93, 192110 (2008)

572. Eisele, H; Borisova, S; Ivanova, L; Dahne, M; Eberta, P Cross-sectional scanning tunneling microscopy and spectroscopyof nonpolar GaN(1(1)over-bar00) surfaces, JOURNAL OF VA-CUUM SCIENCE & TECHNOLOGY B 28 (4): C5G11-C5G18 JUL2010

571. Hyun, JM; Kim, H, Magnetic Properties of Intrinsic Vacancieson the GaN(10 (1)over-bar0) Surface: a Density-functional-theory Study, JOURNAL OF THE KOREAN PHYSICAL SOCIETY,68 (3):420-424; 10.3938/jkps.68.420 FEB 2016



Multipolar plasma resonances in supported alkali-metalnanoparticles, C. Beitia, Y. Borensztein, R. G. Barrera, C. E.Roman, Cecilia Noguez, Physica B 279, 25 (2000)

TIPO A (3):

569. Myrach, P; Nilius, N; Freund, HJ, Alkaline Earth versus No-ble Metal Particles on MgO Thin Films: Growth and OpticalProperties, J. Phys. Chem. C 113, 18740 (2009)

568. Blaber MG, Harris N, Ford MJ, et al. Optimisation of absor-ption e�ciency for varying dielectric spherical nanoparti-cles, Conference Information: International Conference onNanoscience and Nanotechnology, DEC 07-08, 2006 KoreaInst Ind Technol, Gwangju, SOUTH KOREA Source: 2006 IN-TERNATIONAL CONFERENCE ON NANOSCIENCE AND NANO-TECHNOLOGY, VOLS 1 AND 2 Pages: 61-64 Published: 2006

567. Gallo, A., Montini, T., Marelli, M., Minguzzi, A., Gombac, V.,Psaro, R., Fornasiero, P., Dal Santo, V. H 2 production by re-newables photoreforming on Pt-Au/TiO 2 catalysts activatedby reduction, 2012, ChemSusChem 5 (9) , pp. 1800-1811


TIPO B (1):

566. Borensztein Y, Delannoy L, Djedidi A, et al. Monitoring ofthe Plasmon Resonance of Gold Nanoparticles in Au/TiO2Catalyst under Oxidative and Reducing Atmospheres, JPhys Chem C 114, 9008 (2010)


Optical properties of the cleavage InAs(110) surface, X.Lopez-Lozano, Cecilia Noguez, L. Meza-Montes, PhysicaStatus Solidi (c) 0, 2992 (2003)

TIPO A (2):

565. R. A. Vazquez-Nava, Bernardo S. Mendoza, and C. Castillo,Spin-orbit e�ects on re�ectance anisotropy spectroscopyPhys Rev B 70, 165306 (2004)

564. Tomaszewska, N., Walczak, L., Lis, J., Kolodziej, J.J. Surfacestates and charge accumulation states on reconstructedInAs(001) surfaces, Surface Science Volume 632, February2015, Pages 103-110


Spectral Representation of the Casimir Force Between aSphere and a Substrate, C. Roman-Velazquez, CeciliaNoguez, C. Villarreal, R. Esquivel-Sirvent. Phys Rev A 69,042109 (2004)

TIPO A (8):

563. Milton, Kimball A. J. Phys A37, R209 (2004).

562. J. Barcenas, L. Reyes, and R. Esquivel-Sirvent, Acoustic Casi-mir pressure for arbitrary media, J of the Acoustical Societyof America 116, 717 (2004)

561. K. A. Milton, Recent Developments in the Casimir E�ect, J.Phys.: Conf. Ser. 161, 012001 (2009)

560. A. Lambrecht and I. G. Pirozhenko, Casimir force betweendissimilar mirrors and the role of the surface plasmons,Phys. Rev. A 78, 062102 (2008)


558. Markel, VA, Pole expansion of the Lorenz-Mie coe�cients,JOURNAL OF NANOPHOTONICS 4: Art. No. 041555 FEB 4 2010

557. Milton KA, Recent Developments in the Casimir E�ect, In-ternational Workshop on 60 Years of the Casimir E�ect, JUN23-27, 2008 Brasilia, BRAZIL, Source: 60 YEARS OF THE CA-SIMIR EFFECT Book Series: Journal of Physics ConferenceSeries Volume: 161 Pages: - Published: 2009

556. Intravaia, F., Busch, K. Fluorescence in nonlocal dissipativeperiodic structures, 2015 Physical Review A - Atomic, Mole-cular, and Optical Physics 91 (5), 053836

TIPO B (1):

555. Villarreal, C., Mochan, W.L., The Casimir e�ect , AIPConference Proceedings 857B, 235 (2006)


High-multipolar e�ects on the Casimir force: the non-retarded limit, Cecilia Noguez, C. E. Roman-Velazquez, R.Esquivel-Sirvent y C. Villarreal. Europhys Lett 67, 191 (2004)

TIPO A (19):

554. Milton, Kimball A. J. Phys A37, R209 (2004)


552. U. Hakanson, M. Agio, S. Kuhn, L. Rogobete, T. Kalkbren-ner, V. Sandoghdar, Coupling of plasmonic nanoparticles totheir environments in the context of van der Waals-Casimirinteractions, Phys. Rev. B 77, 155408 (2008)

551. K. A. Milton, Recent Developments in the Casimir E�ect, J.Phys.: Conf. Ser. 161, 012001 (2009)

550. Canaguier-Durand, A; Neto, PAM; Cavero-Pelaez, I; Lam-brecht, A; Reynaud, S., Casimir Interaction between Pla-ne and Spherical Metallic Surfaces, Phys. Rev. Lett. 102,230404 (2009)

549. Garcia-Serrano, R; Martinez, G; Hernandez, PH; Palomino-Ovando, M; Cocoletzi, GH Casimir force between two para-llel semiconductor slabs: Magnetic �eld e�ects in the Voigtgeometry, Physica Status Solidi b 246, 1357 (2009)

548. Sernelius, B.E., Casimir experiments showing saturation ef-fects, Physical Review A 80, 043828 (2009)

547. Yannopapas, V., Vitanov, N.V. Casimir-Polder interaction bet-ween an atom and a periodic nanostructure, Physical Re-view A 81, art. no. 042506 (2010)

546. A Lambrecht, A Canaguier-Durand, R Guerout, S ReynaudtextitCasimir e�ect in the scattering approach: correlationsbetween material properties, temperature and geometry,Lecture Notes in Physics 834, pp. 97-127 2011

545. A Canaguier-Durand, P A. Maia Neto, A Lambrecht, S Rey-naud Thermal Casimir e�ect for Drude metals in the plane-sphere geometry, PHYSICAL REVIEW A 82 (1): Art. No. 012511JUL 29 2010



543. Milton KA, Recent Developments in the Casimir E�ect, In-ternational Workshop on 60 Years of the Casimir E�ect, JUN23-27, 2008 Brasilia, BRAZIL, Source: 60 YEARS OF THE CA-SIMIR EFFECT Book Series: Journal of Physics ConferenceSeries Volume: 161 Pages: - Published: 2009


541. Canaguier-Durand, A; Gerardin, A; Guerout, R; Neto, PAM;Nesvizhevsky, VV; Voronin, AY; Lambrecht, A; Reynaud, SCasimir interaction between a dielectric nanosphere and ametallic plane, PHYSICAL REVIEW A 83 (3): Art. No. 032508MAR 24 2011

540. Olivares-Amaya, R; Stopa, M; Andrade, X; Watson, MA;Aspuru-Guzik, A Anion Stabilization in Electrostatic Envi-ronments JOURNAL OF PHYSICAL CHEMISTRY LETTERS 2 (7):682-688 APR 7 2011

539. Sernelius, BE Casimir interactions in graphene systems, EPL95 (5): 10.1209/0295-5075/95/57003 SEP 2011

538. Jones, AC; O’Callahan, BT; Yang, HU; Raschke, MB The ther-mal near-�eld: Coherence, spectroscopy, heat-transfer, andoptical forces, PROGRESS IN SURFACE SCIENCE, 88 (4):349-392; 10.1016/j.progsurf.2013.07.001 DEC 2013

537. Stedman, T., Drosdo�, D., Woods, L.M. Van der Waals inter-actions between nanostructures: Some analytic results fromseries expansions, Physical Review A 89, Issue 1, 16 January2014, Article number 012509

536. Milton, K.A., Guerout, R., Ingold, G.-L., Lambrecht, A., Rey-naud, S. Negative Casimir entropies in nanoparticle inter-actions, 2015 Journal of Physics Condensed Matter 27 (21),214003

TIPO B (6):

535. Villarreal, C., Mochan, W.L., The Casimir e�ect , AIP Confe-rence Proceedings 857B, 235 (2006)

534. C. E. Roman-Velazquez, B. E. Sernelius, Numerical study ofthe e�ect of structure and geometry on van der Waals for-ces, J. Phys. A: Math. Theor. 41, (2008) 164008

533. Carlos E Roman-Velazquez and Bo E Sernelius, Non-additivebehavior of van der Walls dispersion forces due to materialand surface geometry e�ects, arXiv:0805.1547v1 (2008)

532. Bo E. Sernelius and C. E. Roman-Velazquez, Beyond the sim-ple proximity force approximation: Geometrical e�ects onthe nonretarded Casimir interaction, Phys. Rev. A 78, 032111(2008)

531. Bo E Sernelius and C E Roman-Velazquez Test of the Pro-ximity Force Approximation J. Phys.: Conf. Ser. 161, 012016(2009)

530. Sernelius BE, Roman-Velazquez CE Test of the ProximityForce Approximation, International Workshop on 60 Yearsof the Casimir E�ect, JUN 23-27, 2008 Brasilia, BRAZIL,Source: 60 YEARS OF THE CASIMIR EFFECT Book Series:Journal of Physics Conference Series Volume: 161 Pages: -Published: 2009


Dispersive force between dissimilar materials: Geometricale�ects, Cecilia Noguez, C.E. Roman-Velazquez Phys Rev B70, 195412 (2004)

TIPO A (16):


528. D. E. Krause, R. S. Decca, D. Lopez, and E. Fischbach, Ex-perimental Investigation of the Casimir Force beyond theProximity-Force Approximation, Phys Rev Lett 98, 050403(2007)

527. Villarreal, C., Mochan, W.L., The Casimir e�ect , AIP Confe-rence Proceedings 857B, 235 (2006)

526. U. Hakanson, M. Agio, S. Kuhn, L. Rogobete, T. Kalkbren-ner, V. Sandoghdar, Coupling of plasmonic nanoparticles totheir environments in the context of van der Waals-Casimirinteractions, Phys. Rev. B 77, 155408 (2008)

525. A. Lambrecht and I. G. Pirozhenko, Casimir force betweendissimilar mirrors and the role of the surface plasmons,Phys. Rev. A 78, 062102 (2008)

524. Blaber MG, Arnold MD, Ford MJ, Search for the Ideal Plasmo-nic Nanoshell: The E�ects of Surface Scattering and Alter-natives to Gold and Silver, J. Phys. Chem C 13, 3041 (2009)


522. Garcia-Serrano, R; Martinez, G; Hernandez, PH; Palomino-Ovando, M; Cocoletzi, GH Casimir force between two para-llel semiconductor slabs: Magnetic �eld e�ects in the Voigtgeometry, Physica Status Solidi b 246, 1357 (2009)


521. Blaber, MG; Arnold, MD; Ford, MJ A review of the optical pro-perties of alloys and intermetallics for plasmonics, JOURNALOF PHYSICS-CONDENSED MATTER 22 (14): Art. No. 143201APR 14 2010

520. Wang, XF; Chen, KP; Zhao, M; Nolte, DD Refractive index anddielectric constant evolution of ultra-thin gold from clus-ters to �lms, OPTICS EXPRESS 18 (24): 24859-24867 NOV22 2010

519. K. Kolwas, A. Derkachova, Damping rates of surface plas-mons for particles of size from nano- to micrometers; re-duction of the nonradiative decay, Journal of QuantitativeSpectroscopy and Radiative Transfer 114 , pp. 45-55 (2013)

518. Kaltenborn, S; Schneider, HC Plasmon dispersions in simplemetals and Heusler compounds, PHYSICAL REVIEW B, 88(4):10.1103/PhysRevB.88.045124 JUL 22 2013

517. Esquivel-Sirvent, R; Escobar, JV Casimir force between li-quid metals, EPL, 107 (4):10.1209/0295-5075/107/40004AUG 2014

516. Milton, K.A., Guerout, R., Ingold, G.-L., Lambrecht, A., Rey-naud, S. Negative Casimir entropies in nanoparticle inter-actions, 2015 Journal of Physics Condensed Matter 27 (21),214003

515. Venkataram, PS; Whitton, JD; Rodriguez, AW Nonadditivity ofvan der Waals forces on liquid surfaces, PHYSICAL REVIEWE, 94 (3):10.1103/PhysRevE.94.030801 SEP 22 2016

514. Godet, C; David, D Derivation of Hamaker Dispersion Energyof Amorphous Carbon Surfaces in Contact with Liquids UsingPhotoelectron Energy-Loss Spectra, BRAZILIAN JOURNAL OFPHYSICS, 47 (6):594-605; 10.1007/s13538-017-0521-0 DEC2017

TIPO B (2):

513. C. E. Roman-Velazquez, B. E. Sernelius, Numerical study ofthe e�ect of structure and geometry on van der Waals for-ces, J. Phys. A: Math. Theor. 41, (2008) 164008

512. C E Roman-Velazquez, B. E Sernelius, Casimir forcesbetween nano-structured particles, arXiv:0806.2067v1(2008)


Electronic structure and Re�ectance Anisotropy spectrumof InAs(110), X. Lopez Lozano, O. Pulci, Cecilia Noguez, K.Fleischer, W. Richter and R. Del Sole. Phys Rev B 71, Art. No.125337 (2005)

TIPO A (2):

511. R. A. Vazquez-Nava, B. S. Mendoza, N. Arzate, Spin-orbite�ects on the optical anisotropy of semiconductor surfaces,physica status solidi (b) 242 3022 (2005)

510. Han, D., Bang, J., Xie, W., Meunier, V., Zhang, S. Phonon-Enabled Carrier Transport of Localized States at Non-PolarSemiconductor Surfaces: A First-Principles-Based Prediction,2016 J Phys Chem Lett 7 (18), pp. 3548-3553

TIPO B (4):

509. K Fleischer, G Bussetti, C Goletti, W Richter and P Chiaradia,Optical anisotropy of Cs nanostructures on III–V(110) surfa-ces, J. Phys.: Condens. Matter 16 (2004) S4353

508. O. Pulci, M. Marsili, E. Luppi, C. Hogan, V. Garbuio, F. Sottile,R. Magri, R. Del Sole, Electronic excitations in solids: Densityfunctional and Green’s function theory, physica status solidi(b), 242, 2737 (2005)

507. O. Pulci, M. Palummo, M. Marsili, R. Del Sole, Theory of Sur-face Optical Properties, page 161 in Advances in Solid StatePhysics, Vol. 45 (Advances in Solid State Physics) (Advancesin Solid State Physics) Bernhard Kramer Springer; 1 edition(November 28, 2005).

506. Hogan, C., Magri, R., Del Sole, R. Optical properties ofGaSb(001)-c(2x6): The role of surface antisite defects,(2010) Physica Status Solidi (B) Basic Research, 247 (8) pp.1960-1964.


Optical Absorbance of Colloidal Suspensions of SilverPolyhedral Nanoparticles, Gonzalez, A. L.; Noguez, C.;Ortiz, G. P.; Rodriguez-Gattorno, G.; J Phys Chem B 10917512 (2005)

TIPO A (53):

505. Railing Chang and P. T. Leung , Nonlocal e�ects on opticaland molecular interactions with metallic nanoshells, Phys.Rev. B 73, 125438 (2006)

504. Yu, K.; Kelly, K. L.; Sakai, N.; Tatsuma, T., Morphologiesand Surface Plasmon Resonance Properties of Monodisper-se Bumpy Gold Nanoparticles, Langmuir 24, 5849 (2008)

503. J Ling, Y Sang, C Z Huang, Visual colorimetric detection ofberberine hydrochloride with silver nanoparticles, Journalof Pharmaceutical and Biomedical Analysis, 47, 860 (2008)

502. Xu, J; Dong, JF; Nie, QH, Preparation and optical absorptionof Ag/SiO2 core-shell spheres, RARE METAL MATERIALS ANDENGINEERING 37: 277-280 Suppl. 2 MAY 2008


501. Lipowska, B., Klonkowski, A.M., Energy transfer and surfa-ce plasmon resonance in luminescent materials based onTb(III) and Ag or Au nanoparticles in silica xerogel, Journalof Non-Crystalline Solids 354, 4383 (2008)

500. C Zheng, Y Du, M Feng, H Zhan, Shape dependence of non-linear optical behaviors of nanostructured silver and theirsilica gel glass composites, Appl. Phys. Lett. 93, 143108(2008)

499. J Hua, M Shao, L Cheng, X Wang, Y Fu, DDD Ma, The fabrica-tion of silver modi�ed silicon nanowires and their excellentcatalysis in the decomposition of �uorescein sodium, Jour-nal of Physics and Chemistry of Solids 70, 192 (2009)



496. Absorbance: Webster’s Timeline History, 1954 - 2007 Editedby PM Parker, Icon Group International, Inc (2009) (Referen-ce book)

495. Song, QW; Hu, JY; Xing, JW; Yuen, M; Yao, BG; Li, Y, Evalua-tion of IR Radiation Performances of Composite MicroPCMsIncorporated with Silver Nano Particles, Textile Bioengi-neering and informatics symposium proceedings 1, 2, 178(2008)

494. Amendola V, Meneghetti M, Size Evaluation of Gold Nano-particles by UV-vis Spectroscopy, J. Phys. Chem. C 113, 4277(2009)

493. Han, CP; Zhang, L; Li, HB, Highly selective and sensitivecolorimetric probes for Yb3+ ions based on supramole-cular aggregates assembled from beta-cyclodextrin-4,4 ’-dipyridine inclusion complex modi�ed silver nanoparticles,Chem Comm 24, 3545 (2009)


491. Jensen, LL; Jensen, L, Anisotropic linear and nonlinear op-tical properties from anisotropy-controlled metallic nano-composites, J. Phys. Chem. C 113, 15182 (2009)

490. Matthias Meyer, Mechanisms in Surface Enhanced RamanScattering, A thesis submitted to the Victoria University ofWellington in full�lment of the requirements for the degreeof Doctor of Philosophy in Physics, Victoria University ofWellington The MacDiarmid Institute for Advanced Materialsand Nanotechnology 2009

489. Chen, J., Jin, Y., E�ect of water volume on the growth of silvernanoparticles promoted by ultraviolet, Advanced MaterialsResearch 96, 55 (2010)



486. Calandra, P., Ruggirello, A., Pistone, A., Liveri, V.T. Structuraland Optical Properties of Novel Surfactant Coated TiO2-AgBased Nanoparticles, (2010) Journal of Cluster Science, 21(4) pp. 767-778.

485. Yang, P., Portales, H., Pilenia, M.-P. Dependence of the loca-lized surface plasmon resonance of noble metal quasisp-herical nanoparticles on their crystallinity-related morpho-logies, (2011) Journal of Chemical Physics, 134 (2), art. no.024507

484. Ghosh, D; Sarkar, D; Girigoswami, A; Chattopadhyay, N, AFully Standardized Method of Synthesis of Gold Nanoparti-cles of Desired Dimension in the Range 15 nm-60 nm, JOUR-NAL OF NANOSCIENCE AND NANOTECHNOLOGY 11 (2): 1141-1146 FEB 2011

483. Dakhel, A.A., Henari, F.Z. Optical and structural properties ofsilver nanoparticles embedded in indium oxide �lms, 2011International Journal of Nanoscience 10 (3), pp. 433-440


481. Provorse, M.R., Aikens, C.M. Binding of carboxylates to goldnanoparticles: A theoretical study of the adsorption of for-mate on Au 20, (2012) Computational and Theoretical Che-mistry, 987 pp. 16-21.


480. Bae, G.-T., Aikens, C.M. Time-dependent density functionaltheory studies of optical properties of Ag nanoparticles: Oc-tahedra, truncated octahedra, and icosahedra, 2012 Journalof Physical Chemistry C 116 (18) , pp. 10356-10367

479. Guidez, E.B., Aikens, C.M. Theoretical analysis of the opti-cal excitation spectra of silver and gold nanowires, 2012,Nanoscale 4 (14) , pp. 4190-4198

478. Bae, G.-T., Aikens, C.M. TDDFT and CIS studies of opticalproperties of dimers of silver tetrahedra, 2012, Journal ofPhysical Chemistry A 116 (31) , pp. 8260-8269

477. Karvianto; Chow, GM Size-dependent transformation fromAg templates to Au-Ag nanoshells via galvanic replacementreaction in organic medium, JOURNAL OF NANOPARTICLERESEARCH, 14 (10):10.1007/s11051-012-1186-9 OCT 2012

476. Filippo, E., Manno, D., Buccolieri, A., Serra, A. Green synthe-sis of sucralose-capped silver nanoparticles for fast colori-metric triethylamine detection, 2013, Sensors and Actuators,B: Chemical 178 , pp. 1-9

475. Kusada, K., Kobayashi, H., Yamamoto, T., Matsumura, S.,Sumi, N., Sato, K., Nagaoka, K., Kubota, Y; Kitagawa, H. Dis-covery of face-centered-cubic ruthenium nanoparticles: Fa-cile size-controlled synthesis using the chemical reductionmethod, 2013, J Am Chem. Soc 135 (15) , pp. 5493-5496

474. Walekar, L.S., Gore, A.H., Anbhule, P.V., Sudarsan, V., Patil,S.R., Kolekar, G.B. A novel colorimetric probe for highly se-lective recognition of Hg 2+ ions in aqueous media basedon inducing the aggregation of CPB-capped AgNPs: Acce-lerating direct detection for environmental analysis, 2013,Analytical Methods 5 (20) , pp. 5501-5507


472. Zhu, W.-W., Hu, Q.-Y., Wang, Q., Yan, J. Determination oftrace rutin based on the surface plasmon resonance absor-ption of silver nanoparticles, Analytical Methods Volume 6,Issue 8, 21 April 2014, Pages 2751-2755

471. Deng, Y., Shi, H., Ming, H., Liu, G., Xi, Z In�uence of the inter-action between two Ag nanoparticles on optical propertiesof Ag/PGMEA nanocomposite materials, Journal of ModernOptics Volume 61, Issue 4, 23 February 2014, Pages 271-275

470. Rohit, J.V., Solanki, J.N., Kailasa, S.K. Surface modi�cation ofsilver nanoparticles with dopamine dithiocarbamate for se-lective colorimetric sensing of mancozeb in environmentalsamples, Sensors and Actuators, B: Chemical Volume 200,September 2014, Pages 219-226

469. Bettini, S., Pagano, R., Valli, L., Giancane, G. Drastic nickelion removal from aqueous solution by curcumin-capped Agnanoparticles, Nanoscale Volume 6, Issue 17, 7 September2014, Pages 10113-10117

468. Guidez, E.B., Aikens, C.M. Quantum mechanical origin of theplasmon: From molecular systems to nanoparticles, Nanos-cale Volume 6, Issue 20, 21 October 2014, Pages 11512-11527

467. Kitagawa, H Discovery of the Face-Centered Cubic Ruthe-nium Nanoparticles: Facile Size-Controlled Synthesis Usingthe Chemical Reduction Method, CREATION OF NEW METALNANOPARTICLES AND THEIR HYDROGEN-STORAGE AND CA-TALYTIC PROPERTIES, 59-67; 10.1007/978-4-431-55087-7-42014

466. Liu, H., Tang, X., Liu, Q. A novel point-of-use water treatmentmethod by antimicrobial nanosilver textile material, Journalof Water and Health Volume 12, Issue 4, 2014, Pages 670-677

465. Deng, Y., Ming, H., Liu, G., Shi, H. Size dependence of simu-lated optical properties for Cu nanocubes, European Phy-sical Journal D Volume 69, Issue 2, February 2015, Articlenumber 37

464. Chao, L.-M., Bao, L.-H., Tegus, O.Optical response of CeB6nanoparticles with di�erent sizes and shapes from discrete-dipole approximation, 2015 Chinese Physics Letters 32 (4),043301

463. Santagata, A., Guarnaccio, A., Pietrangeli, D., (...), Mollica,D., Parisi, G.P. Production of silver-silica core-shell nano-composites using ultra-short pulsed laser ablation in nano-porous aqueous silica colloidal solutions, 2015 Journal ofPhysics D: Applied Physics 48 (20), 205304

462. Deng, Y., Liu, G., Zhang, L., Ming, H. Far- and near-�eld opti-cal properties of Al nanorod by discrete dipole approxima-tion, 2015 Journal of Modern Optics 62 (15), pp. 1199-1203

461. Liu, C., Lv, J., Wang, F., (...), Liu, Q., Chu, P.K. Analysis ofLocalized Surface Plasmon Resonance in Ag/ITO/CdS/SiO2Multilayered Nanostructured Composite, 2015 Nano10 (8),1550117

460. Amendola, V. Surface plasmon resonance of silver and goldnanoparticles in the proximity of graphene studied usingthe discrete dipole approximation method, 2016 PhysicalChemistry Chemical Physics 18 (3), pp. 2230-2241

459. Kusada, K. and Kitagawa, H. A Route for Phase Control inMetal Nanoparticles: A Potential Strategy to Create Advan-ced Materials, Adv. Mater., 28: 1129?1142 (2016).

458. DellAglio, M.; Mangini, V.; Valenza, G.; et al. Silver and goldnanoparticles produced by pulsed laser ablation in liquid to


investigate their interaction with Ubiquitin, APPLIED SURFACESCIENCE 374 Pages: 297-304 2016

457. Liu, C; Lv, JW; Liu, ZT; Zheng, SJ; Liu, Q; Sun, T; Mu, HW;Chu, PK Theoretical Assessment of Localized Surface Plas-mon Resonance Properties of Au-Interlayer-Ag MultilayeredNanoshells, PLASMONICS, 11 (6):1589-1595; 10.1007/s11468-016-0214-5 DEC 2016

456. Amendola, V., Pilot, R., Frasconi, M., Marago, O.M., Iati, M.A.Surface plasmon resonance in gold nanoparticles: A review,2017 Journal of Physics Condensed Matter 29(20),203002

455. Fallahi, M.R., Khayatian, G. Colorimetric detection of cu (II) inwater and urine samples using 2,2- thiodiacetic acid modi-�ed silver nanoparticles, 2017 Current Analytical Chemistry13(2), pp. 167-173

454. Mu, HW; Lv, JW; Liu, C; Sun, T; Chu, PK; Zhang, JP Locali-zed surface plasmon resonance properties of Ag nanorodarrays on graphene-coated Au substrate, 2017 Optics Com-munications 402, pp. 216-220

453. Deng, Y., Ou, J., Yu, J., Zhang, M., Zhang, L. Coupled twoaluminum nanorod antennas for near-�eld enhancement,(2017) Frontiers of Optoelectronics, 10 (2) pp. 138-143.

TIPO B (3):

452. Ortiz, G., Inchaussandague, M., Skigin, D., Depine, R., Mo-chan, W.L. E�ective non-retarded method as a tool for thedesign of tunable nanoparticle composite absorbers, Jour-nal of Optics, Volume 16, Issue 10, 1 October 2014, Articlenumber 105012

451. Rodriguez-Gattorno, G.; Aleman-Vazquez, L. O.; Angeles-Franco, X.; Cano-Dominguez, J. L; Villagomez-Ibarra, R. Cy-clohexane Ring Opening on Alumina-Supported Rh and IrNanoparticles ,Energy & Fuels 21, 1122 (2007)



Reconstruction of quasi-1D In/Si(111) systems: Charge andspin density waves versus bonding, X. Lopez-Lozano,A. Krivosheeva, A. Stekolnikov, L. Meza-Montes, CeciliaNoguez, J. Furtmueller, and F. Bechstedt, Phys Rev B 73,035430 (2006)

TIPO A (31):

449. Fleischer K, Chandola S, Esser N, McGilp JF; Optical proper-ties of indium nanowires - an adsorption study, Phys StatusSolidi (b) 242, 2655 (2005)

448. Crain, J.N., Himpsel, F.J., Low-dimensional electronic statesat silicon surfaces, Applied Physics A 82, 431 (2006)

447. A. A. Saranin, A. V. Zotov, M. Kishida, Y. Murata, S. Honda,M. Katayama, K. Oura, D. V. Gruznev, A. Visikovskiy, H. To-chihara , Reversible phase transitions in the pseudomorphic7×3-hex in layer on Si(111), Phys. Rev. B 74, 035436 (2006)

446. B S. Mendoza, F. Nastos, N. Arzate, J. E. Sipe, Layer-by-layeranalysis of the linear optical response of clean and hydro-genated Si(100) surfaces, Phys. Rev. B 74, 075318 (2006)

445. Yeom, HW, Comment on “So� phonon, dynamical �uctua-tions, and a reversible phase transition: Indium chains onsilicon”, Phys Rev Lett 97, 189701 (2006)

444. M. Hashimoto, Y. Fukaya, A. Kawasuso, A. Ichimiya, Surfacestructure of In/Si(1 1 1) studied by re�ection high-energypositron di�raction, Surface Science 601, 5192 (2007)

443. J-H Cho, J-Y Lee, First-principles calculation of the atomicstructure of one-dimensional indium chains on Si(111): Con-vergence to a metastable structure, Phys. Rev. B 76, 033405(2007)

442. D. V. Gruznev, D. A. Olyanich, D. N. Chubenko, A. V. Zotov, A.A. Saranin, 4×1 to 7×3 transition in the In/GexSi1−x(111)system induced by varying the substrate lattice constant,Phys. Rev. B 76, 073307 (2007)

441. Y B Losovyj, M Klinke, E Cai, I Rodriguez, J Zhang, L. Ma-kinistian, A. G. Petukhov, E. A. Albanesi, P. Galiy, Y Fiyala, JLiu, P. A. Dowben, The electronic structure of surface chainsin the layered semiconductor In4Se3(100), Appl. Phys. Lett.92, 122107 (2008)

440. Wippermann S, Koch N, Schmidt WG; Adatom-induced con-ductance modi�cation of in nanowires: Potential-well scat-tering and structural e�ects, Phys Rev Lett 100, 106802(2008)

439. C Liu, T Inaoka, S Yaginuma, T Nakayama, M Aono, T Nagao,Disappearance of the quasi-one-dimensional plasmon atthe metal-insulator phase transition of indium atomic wires,Phys Rev B 77, 205415 (2008)

438. Y. Fukaya, M. Hashimoto, A. Kawasuso, A. Ichimiya, Surfacestructure of Si(111)-(8×2)-In determined by re�ection high-energy positron di�raction, Surface Science 602, 2448(2008)

437. Hashimoto, M., Fukaya, Y., Kawasuso, A., Ichimiya, A. Quasi-one-dimensional In atomic chains on Si(1 1 1) at low tempe-rature studied by re�ection high-energy positron di�raction


and scanning tunneling microscopy, Applied Surface Scien-ce 254, 7733 (2008)

436. Wippermann S, Schmidt WG; Optical anisotropy of the In/Si(11 1)(4 x 1)/(8 x 2) nanowire array, Surface Science 603, 247(2008)

435. Kawasuso, A; Fukaya, Y; Hashimoto, M; Ichimiya, A; Narita,H; Matsuda, I, Atomic Scale Study of Surface Structures andPhase Transitions with Re�ection High-Energy Positron Dif-fraction, Positron and Positronium Chemistry 607, 94 (2009)

434. Zhang, H., Li, Y., Li, B., Fang, X., Ji, H., Wang, B., Zeng, C., Hou,J.G., Templated growth of quasi-one dimensional molecularstructures on Si(1 1 1)-(4 x 1)-In surface, Surface Science 603,L70 (2009)

433. Snijders, P.C., Weitering, H.H., Colloquium: Electronic insta-bilities in self-assembled atom wires, Reviews of ModernPhysics 82, 307 (2010)

432. Wippermann, S; Koch, N; Blankenburg, S; Gerstmann, U;Sanna, S; Rauls, E; Hermann, A; Schmidt, WG Understan-ding Electron Transport in Atomic Nanowires from Large-Scale Numerical Calculations, HIGH PERFORMANCE COMPU-TING ON VECTOR SYSTEMS 2009 : 233-242 2010

431. Speiser, E; Chandola, S; Hinrichs, K; Gensch, M; Cobet, C;Wippermann, S; Schmidt, WG; Bechstedt, F; Richter, W; Fleis-cher, K; McGilp, JF; Esser, N Metal-insulator transition inSi(111)-(4 x 1)/(8 x 2)-In studied by optical spectroscopy, HY-SICA STATUS SOLIDI B-BASIC SOLID STATE PHYSICS 247 (8):2033-2039 AUG 2010

430. Wippermann, S; Schmidt, WG Entropy Explains Metal-Insulator Transition of the Si(111)-In Nanowire Array, PHY-SICAL REVIEW LETTERS 105 (12): Art. No. 126102 SEP 17 2010

429. Goryl, G; Toton, D; Tomaszewska, N; Prauzner-Bechcicki, JS;Walczak, L; Tejeda, A; Taleb-Ibrahimi, A; Kantorovich, L; Mi-chel, EG; Kolodziej, JJ Structure of the indium-rich InSb(001)surface, PHYSICAL REVIEW B 82 (16): Art. No. 165311 OCT 72010

428. Fukaya, Y., Hashimoto, M., Kawasuso, A., Ichimiya, A. Struc-ture and phase transition of low-dimensional metals onSi(111) surfaces studied by re�ection high-energy positrondi�raction, (2010) Journal of Physics: Conference Series,225, art. no. 012008

427. Schmidt, WG; Babilon, M; Thierfelder, C; Sanna, S; Wip-permann, S In�uence of Na adsorption on the quan-tum conductance and metal-insulator transition of the In-Si(111)(4x1)-(8x2) nanowire array, PHYSICAL REVIEW B 84 (11):10.1103/PhysRevB.84.115416 SEP 14 2011

426. Schmidt, W.G., Wippermann, S., Sanna, S., Babilon, M.,Vollmers, N.J., Gerstmann, U. In-Si(111)(4x1)/(8x2) nanowires:Electron transport, entropy, and metal-insulator transition,Physica Status Solidi (B) Basic Research 249 (2) , pp. 343-359 2012

425. Kim, H.-J., Cho, J.-H. Driving force of phase transition in in-dium nanowires on Si(111), 2013, Physical Review Letters 110(11), art. no. 116801

424. Schmidt, W.G., Rauls, E., Gerstmann, U., Sanna, S., Land-mann, M., Rohrmuller, M., Riefer, A., Wippermann, S. Entropyand metal-insulator transition in atomic-scale wires: The ca-se of In-Si(111)(4x1)/(8x2), 2012, High Performance Compu-ting in Science and Engineering 2011 - Transactions of theHigh Performance Computing Center, Stuttgart, HLRS 2011 ,pp. 131-139

423. Schmidt, W.G., Wippermann, S., Rauls, E., Gerstmann, U.,Sanna, S., Thierfelder, C., Landmann, M., Dos Santos, L.S.Si(111)-In nanowire optical response from large-scale abinitio calculations, 2011, High Performance Computing inScience and Engineering 2010 - Transactions of the HighPerformance Computing Center, Stuttgart, HLRS 2010 , pp.149-158

422. Wippermann, S. , Babilon, M., Thierfelder, C., Sanna, S., Sch-midt, W.G. In�uence of adatoms on the quantum conductan-ce and metal-insulator transition of atomic-scale nanowires,High Performance Computing on Vector Systems 2011 2012,Pages 159-170. 2011 14th Tera�op Workshop; Stuttgart; Ger-many; 5 December 2011 through 6 December 2011; Code103351

421. Gerstmann, U., Vollmers, N.J., Lucke, A., Babilon, M., Sch-midt, W.G. Rashba splitting and relativistic energy shi�s inIn/Si(111) nanowires, Physical Review B 89, Issue 16, 30 April2014, Article number 165431

420. Jeckelmann, E; Sanna, S; Schmidt, WG; Speiser, E; Esser, NGrand canonical Peierls transition in In/Si(111), PHYSICAL RE-VIEW B, 93 (24):10.1103/PhysRevB.93.241407 JUN 21 2016

419. Speiser, E; Esser, N; Wippermann, S; Schmidt, WG Surfa-ce vibrational Raman modes of In: Si(111)(4 x 1) and (8x 2) nanowires, PHYSICAL REVIEW B, 94 (7):10.1103/Phys-RevB.94.075417 AUG 12 2016

TIPO B (5):

418. A. A. Stekolnikov, K. Seino, F. Bechstedt, S. Wippermann, W.G. Schmidt, A. Calzolari, M. Buongiorno Nardelli, Hexagonversus Trimer Formation in In Nanowires on Si(111): Energe-tics and Quantum Conductance, Phys. Rev. Lett. 98, 026105(2007)


417. S. Wippermann, W.G. Schmidt, A. Calzolari, M. BuongiornoNardelli, A.A. Stekolnikov, K. Seino, F. Bechstedt, Quantumconductance of In nanowires on Si(111) from �rst principlescalculations, Surface Science 601 4045 (2007)

416. A. A. Stekolnikov, J. Furthmuller, and F. Bechstedt, Pt-inducednanowires on Ge(001): Ab initio study, Phys. Rev. B 78,155434 (2008)

415. Chandola S, Hinrichs K, Gensch, M; Esser, N; Wippermann, S;Schmidt, WG; Bechstedt, F; Fleischer, K; McGilp, JF , Structu-re of Si(111)-In Nanowires Determined from the MidinfraredOptical Response, Phys Rev Lett 102, 226805 (2009)

414. Sauer, S; Fuchs, F; Bechstedt, F; Blumenstein, C; Schafer,J First-principles studies of Au-induced nanowires onGe(001), Phys Rev B 81 (7): Art. No. 075412 FEB 2010


Optical circular dichroism of single-wall carbon nanotubes,A. Sanchez-Castillo, C. E. Roman Velazquez, and CeciliaNoguez, Phys Rev B 73, 045401 (2006)

TIPO A (36):

413. Dukovic, G.; Balaz, M.; Doak, P.; Berova, N. D.; Zheng, M.;Mclean, R. S.; Brus, L. E.; Racemic Single-Walled Carbon Na-notubes Exhibit Circular Dichroism When Wrapped with DNA,J. Am. Chem. Soc. 128, 9004 (2006)

412. Florian Dufey, Optical activity in the Drude helix model,Chemical Physics, 330, 326 (2006)

411. Qi, H; Hegmann, T, Formation of periodic stripe patternsin nematic liquid crystals doped with functionalized goldnanoparticles, J of Materials Chemistry 16, 4197 (2006)

410. A. Eisfeld, R. Kniprath, and J. S. Briggs, Theory of the ab-sorption and circular dichroism spectra of helical molecularaggregates, J. Chem. Phys. 126, 104904 (2007)

409. X. Zhang, W. Song, P. J. F. Harris, G. R. Mitchell, T. T. T. Bui, A.F. Drake, Chiral Polymer-Carbon-Nanotube Composite Na-no�bers, Advanced Materials 19, 1079 (2007)

408. V Adamyan, S Tishchenko, One-electron states and inter-band optical absorption in single-wall carbon nanotubes, J.Phys.: Condens. Matter 19 186206 (2007)

407. Peng, X., Komatsu, N., Bhattacharya, S., Shimawaki, T., Ao-numa, S., Kimura, T., Osuka, A., Optically active single-walled carbon nanotubes, Nature Nanotechnology 2 (6), pp.361-365 (2007).

406. Peng, X.; Komatsu, N.; Kimura, T.; Osuka, A.; Improved Opti-cal Enrichment of SWNTs through Extraction with Chiral Na-notweezers of 2,6-Pyridylene-Bridged Diporphyrins, J. Am.Chem. Soc., 129 (51), 15947 -15953, (2007).

405. R. Tantra, P. Cumpson, The detection of airbornecarbon nanotubes in relation to toxicology andworkplace safety, Nanotoxicology 1, 251 (2007) DOI:10.1080/17435390701675906

404. Naoki Komatsu, Heterocyclic Supramolecular Chemistry ofFullerenes and Carbon Nanotubes, Topics in HeterocyclicChemistry, Collection: Chemistry and Materials ScienceSpringer Berlin / Heidelberg, 2008.

403. Naoki Komatsu, Separation of nanocarbons by molecularrecognition, Journal of Inclusion Phenomena and Macrocy-clic Chemistry 61, 195 (2008)


401. N. Komatsu, Stereochemistry of Carbon Nanotubes, Jpn. J.Appl. Phys. 49, 02BC01 (2010).

400. G Slavcheva, Ph Roussignol, Coherent magneto-optical ac-tivity in a single chiral carbon nanotube, NanoScience andTechnology, 1, Volume 0, Optical Generation and Control ofQuantum Coherence in Semiconductor Nanostructures, Part3, Pages 151-180

399. G Slavcheva and Ph Roussignol, Nonlinear coherentmagneto-optical response of a single chiral carbon nano-tube, 2010 New J. Phys. 12 103004

398. Peng, XB; Wang, F; Bauri, AK; Rahman, AFMM; Komatsu, NOptical Resolution of Single-Walled Carbon Nanotubes th-rough Molecular Recognition with Chiral Diporphyrin Na-notweezers, CHEMISTRY LETTERS 39 (10): 1022-1027 OCT 52010

397. Guerrero-Martinez, A; Alonso-Gomez, JL; Auguie, B; Cid,MM; Liz-Marzan, LM From individual to collective chiralityin metal nanoparticles, NANO TODAY 6 (4): 381-400 2011

396. Liu, R., Chen, Z., Zhao, F., Chang, X., Zu, Y., Gao, X. Sortingthe unique chirality, right handed single wall carbon nano-tubes via the dye modi�ed ssDNA, Journal of Nanoscienceand Nanotechnology 11 (9) , pp. 7587-7592 2011

395. Akazaki, K., Toshimitsu, F., Ozawa, H., Fujigaya, T., Nakas-hima, N. Recognition and one-pot extraction of right- andle�-handed semiconducting single-walled carbon nanotubeenantiomers using �uorene-binaphthol chiral copolymers,2012, Journal of the American Chemical Society 134 (30) ,pp. 12700-12707


394. Naoki Komatsu and Feng Wang A Comprehensive Re-view on Separation Methods and Techniques for Single-Walled Carbon Nanotubes, Materials 2010, 3(7), 3818-3844;doi:10.3390/ma3073818

393. Yan, W., Xu, L., Xu, C., Ma, W., Kuang, H., Wang, L., Kotov, N.A.Self-assembly of chiral nanoparticle pyramids with strongR/S optical activity, 2012, Journal of the American ChemicalSociety 134 (36) , pp. 15114-15121

392. Ghosh, S; Bachilo, SM; Weisman, RB Structure-dependentOptical Activity of Single-walled Carbon Nanotu-be Enantiomers, FULLERENES NANOTUBES ANDCARBON NANOSTRUCTURES, 22 (1-3):269-279; SI10.1080/1536383X.2013.812640 JAN 1 2014

391. Nagy, PR; Surjan, PR; Szabados, A Vibrational optical acti-vity of chiral carbon nanoclusters treated by a generalizedpi-electron method, JOURNAL OF CHEMICAL PHYSICS, 140(4):10.1063/1.4862682 JAN 28 2014

390. Bhattacharyya, T., Roy, S., Ray, P., Dasgupta, A.Kr. Indu-ced chirality in single walled carbon nanotube based self-assembly, Journal of Materials Chemistry A Volume 2, Issue16, 28 April 2014, Pages 5759-5765

389. Li, Y., Wang, X., Lv, R., Wang, F. Non-covalent separation ofoptically active single-walled carbon nanotubes, Progress inChemistry Volume 26, Issue 8, 15 August 2014, Pages 1361-1368

388. Landry, M.P. , Kruss, S. , Nelson, J.T. , Bisker, G. , Iverson,N.M. , Reuel, N.F. , Strano, M.S. Experimental tools to studymolecular recognition within the nanoparticle corona, Sen-sors (Switzerland) Volume 14, Issue 9, 2 September 2014,Pages 16196-16211

387. Liu, H., Tanaka, T., Kataura, H. Optical isomer separation ofsingle-chirality carbon nanotubes using gel column chro-matography, Nano Letters Volume 14, Issue 11, 12 November2014, Pages 6237-6243

386. Zhao, QC; Zhang, J Characterizing the Chiral Index of aSingle-Walled Carbon Nanotube, SMALL, 10 (22):4586-4605;SI 10.1002/smll.201401567 NOV 26 2014

385. Duhan, S., Tomer, V. Advanced Electronics: Looking beyondSilicon (Book Chapter) 2014 Advanced Energy Materials pp.295-325

384. Magg, M; Kadria-Vili, Y; Oulevey, P; Weisman, RB; Buergi, TResonance Raman Optical Activity Spectra of Single-WalledCarbon Nanotube Enantiomers, JOURNAL OF PHYSICAL CHE-MISTRY LETTERS, 7 (2):221-225; 10.1021/acs.jpclett.5b02612JAN 21 2016

383. Nagy, P.R., Koltai, J., Surjan, P.R., Kurti, J., Szabados, A. Reso-nance Raman Optical Activity of Single Walled Chiral CarbonNanotubes, 2016 , Journal of Physical Chemistry A , (28) ,5527-5538

382. Cecconello, A; Kahn, JS; Lu, CH; Khorashad, LK; Govorov, AO;Willner, I DNA Sca�olds for the Dictated Assembly of Le�-/Right-Handed Plasmonic Au NP Helices with ProgrammedChiro-Optical Properties, JOURNAL OF THE AMERICAN CHE-MICAL SOCIETY, 138 (31):9895-9901; 10.1021/jacs.6b04096AUG 10 2016

381. Nakashima, N; Shiraki, T Speci�c Molecular Interac-tion and Recognition at Single-Walled Carbon Na-notube Surfaces, LANGMUIR, 32 (47):12323-12331; SI10.1021/acs.langmuir.6b02023 NOV 29 2016


379. Sato, N., Tatsumi, Y., Saito, R. Circular dichroism of single-wall carbon nanotubes, 2017 Physical Review B - CondensedMatter and Materials Physics 95(15),155436

378. Ma, W; Xu, LG; de Moura, AF; Wu, XL; Kuang, H; Xu, CL; Kotov,NA Chiral Inorganic Nanostructures, CHEMICAL REVIEWS,117 (12):8041-8093; 10.1021/acs.chemrev.6b00755 JUN 282017


The role of geometry on dispersive forces, C.E. Roman-Velazquez, Cecilia NoguezJ Physics A 39, 6695 – 6701(2006)

TIPO A (3):


376. T. Emig, N. Graham, R. L. Ja�e, and M. Kardar Orienta-tion dependence of Casimir forces Phys. Rev. A 79, 054901(2009)

375. Esquivel-Sirvent, R; Escobar, JV Casimir force between li-quid metals, EPL, 107 (4):10.1209/0295-5075/107/40004AUG 2014

TIPO B (2):

374. C E Roman-Velazquez, B. E Sernelius, Casimir forces bet-ween nano-structured particles, arXiv:0806.2067v1 (2008)


373. Carlos E Roman-Velazquez and Bo E Sernelius, Non-additivebehavior of van der Walls dispersion forces due to materialand surface geometry e�ects, arXiv:0805.1547v1 (2008)


Optical Properties of Silver Nanoparticles, A. L. Gonzalez,Cecilia Noguez, Physica Status Soildi (c) 4 (11), 4118 –4126(2007)

TIPO A (30):

372. N. I. Cade, T. Ritman-Meer, and D. Richards, Plasmonic en-gineering of silver �lms for enhanced �uorescence and Ra-man scattering Progress in Biomedical Optics and Imaging- Proceedings of SPIE 7192, art. no. 71920J (2009)


370. F W. Campbell, S R. Belding, R Baron, L Xiao, R G.Compton Hydrogen Peroxide Electroreduction at a Silver-Nanoparticle Array: Investigating Nanoparticle Size and Co-verage E�ects, J. Phys. Chem. C 113, 9053 (2009)

369. N I Cade, T Ritman-Meer, K A Kwakwa and D Richards Theplasmonic engineering of metal nanoparticles for enhan-ced �uorescence and Raman scattering, Nanotechnology20, 285201 (2009)

368. S Pruneanu, L Olenic, LB Tudoran,I Kacso, SAF Al-Said, RHassanien, A Houlton, BR Horrocks, Preparation of 1D na-nostructures using biomolecules, J. Phys.: Conf. Ser. 182,012014 (2009)

367. Trinh LTT, Kjoniksen AL, Zhu KZ, Knudsen KD, Volden S,Glomm WR, Nystrom B Slow salt-induced aggregation ofcitrate-covered silver particles in aqueous solutions of ce-llulose derivatives, Colloid and Polymer Science 298, 1391(2009)

366. F W. Campbell, S R. Belding, R Baron, L Xiao, R G. Com-pton The Hydrogen Evolution Reaction at a Silver Nanopar-ticle Array and a Silver Macroelectrode Compared: ChangedElectrode Kinetics between the Macro- and Nanoscales, J.Phys. Chem. C 113, 14852 (2009)

365. Trinh, L.T.T., Volden, S., Kjoniksen, A.-L., Zhu, K., Knudsen,K.D., Glomm, W.R., Nystrom, B, Temperature-induced ad-sorption and optical properties of an amphiphilic diblockcopolymer adsorbed onto �at and curved silver surfaces,Journal of Colloid and Interface Science 342, 142 (2010)

364. Torres Heredia, Victor Elias Silver nanostructures: chemi-cal synthesis of colloids and composites nanoparticles, pla-mon resonance properties and silver nanoparticles mono-layer �lms prepared by spin-coating, Director/a: CalderonMoreno, Jose Maria, Universitat Politecnica de Catalunya.Departament de Fisica Aplicada Fecha de defensa: 08-11-2011Deposito Legal: B. 42939-2011

363. Rodrıguez-Oliveros, R., Sanchez-Gil, J.A. Localized surface-plasmon resonances on single and coupled nanoparticlesthrough surface integral equations for �exible surfaces,2011 Optics Express 19 (13), pp. 12208-12219


361. Pullini, D., Carotenuto, G., Palomba, M., Mosca, A., Horse-well, A., Nicolais, L. In situ synthesis of high-density contact-free Ag-nanoparticles for plasmon resonance polystyrenenanocomposites, Journal of Materials Science 46 (24), pp.7905-7911 2011

360. Yuan, L; Zhu, J; Ren, YJ; Bai, SW Sectional area-dependentplasmonic shi�ing in the truncated process of silver na-noparticles: from cube to octahedron, JOURNAL OF NANO-PARTICLE RESEARCH, 13 (12):6305-6312; 10.1007/s11051-011-0600-z DEC 2011

359. Kruszewski, S., Cyrankiewicz, M. Aggregated silver sols asSERS substrates, (2012) Acta Physica Polonica A, 121 (1 A) pp.A68-A74.

358. Logsdail, A.J., Johnston, R.L. Predicting the optical propertiesof core-shell and Janus segregated Au-M nanoparticles (M= Ag, Pd), 2012, Journal of Physical Chemistry C 116 (44) ,pp. 23616-23628

357. R. Singhal, J.C. Pivin, R. Chandra, D.K. Avasthi, Ion irradiationstudies of silver/amorphous carbon nanocomposite thin�lm, Surface and Coatings Technology, Available online 8June 2012, ISSN 0257-8972, 10.1016/j.surfcoat.2012.05.131.


355. Sukmanowski, J; Battie, Y; Royer, FX; Naciri, AE Determina-tion of optical properties of percolated nanostructures usingan optical resonator system, JOURNAL OF APPLIED PHYSICS,112 (10):10.1063/1.4768202 NOV 15 2012

354. N Harris, S Li, GC Schat Nanoparticles andtheory, AIP Conf. Proc. 1504, pp. 31-42;


doi:http://dx.doi.org/10.1063/1.4771701 INTERNATIO-NAL CONFERENCE OF COMPUTATIONAL METHODS INSCIENCES AND ENGINEERING 2009: (ICCMSE 2009)

353. El-Dessouky, R; Georges, M; Azzazy, HME Silver Nanos-tructures: Properties, Synthesis, and Biosensor Applications,Editor(s): Hepel M; Zhong CJ, en FUNCTIONAL NANOPARTI-CLES FOR BIOANALYSIS, NANOMEDICINE, AND BIOELECTRO-NIC DEVICES, VOL 1, 1112 359-404; 2012, ACS SymposiumSeries


351. Cyrankiewicz, M., Wybranowski, T., Kruszewski, S. Silver na-noparticles as enhancing substrates for raman and �uores-cence spectroscopy, (2014) Acta Physica Polonica A, 125 (4A) pp. A11-A15.

350. El-Dessouky, R., Georges, M., Azzazy, H.M.E. Silver nanos-tructures: Properties, synthesis, and biosensor applications,ACS Symposium Series Volume 1112, 26 November 2012, Pa-ges 359-404

349. Yakovlev, A.V. , Golubeva, O.Y. Synthesis optimisation of ly-sozyme monolayer-coated silver nanoparticles in aqueoussolution, Journal of Nanomaterials Volume 2014, 2014, Ar-ticle number 460605

348. Roy, K., Sarkar, C.K., Ghosh, C.K. Single-step novel biosynt-hesis of silver nanoparticles using Cucumis sativus fruit ex-tract and study of its photcatalytic and antibacterial activity, Digest Journal of Nanomaterials and Biostructures Volume10, Issue 1, January-March 2015, Pages 107-115


346. Agrawal, A., Kriegel, I., Milliron, D.J. Shape-dependent �eldenhancement and plasmon resonance of oxide nanocrys-tals, 2015 Journal of Physical Chemistry C 119 (11), pp. 6227-6238


344. Reheem, AMA; Atta, A; A�fy, TA OPTICAL AND ELECTRI-CAL PROPERTIES OF ARGON ION BEAM IRRADIATED PVA/AgNANOCOMPOSITES, SURFACE REVIEW AND LETTERS, 24(3):10.1142/S0218625X1750038X APR 2017

343. Nguyen, MK; Su, WN; Hwang, BJ A Plasmonic CouplingSubstrate Based on Sandwich Structure of Ultrathin Silica-Coated Silver Nanocubes and Flower-Like Alumina-CoatedEtched Aluminum for Sensitive Detection of Biomar-kers in Urine, ADVANCED HEALTHCARE MATERIALS, 6(10):10.1002/adhm.201601290 MAY 24 2017

TIPO B (1):



Large optical birefringence by anisotropic silver nano-composites, J. A. Reyes-Esqueda, C. Torres-Torres, J. C.Cheang-Wong, A. Crespo-Sosa, L. Rodriıguez-Fernaandez,Cecilia Noguez, A. Oliver, Optics Express 16, 710–717 (2008)

TIPO A (24):

341. Murai, S., Hattori, R., Fujita, K., Tanaka, K, Optical birefrin-gence in tellurite glass containing silver nanoparticles pre-cipitated through thermal process, Applied Physics Express2, 102001 (2009)

340. Jen, Y.-J., Yu, C.-W., Lin, C.-T., Backward wave phenomenonfor light propagating through a silver nanorod array, Pro-ceedings of SPIE - The International Society for Optical En-gineering 7394, art. no. 73942F (2009)

339. Khlebtsov, NG Anisotropic properties of plasmonic nanopar-ticles: depolarized light scattering, dichroism, and birefrin-gence, JOURNAL OF NANOPHOTONICS 4: Art. No. 041587MAR 4 2010

338. Stepanov, AL SYNTHESIS OF SILVER NANOPARTICLES IN DIE-LECTRIC MATRIX BY ION IMPLANTATION: A REVIEW, REVIEWSON ADVANCED MATERIALS SCIENCE 26 (1-2): 1-29 DEC 2010

337. Amekura, H; Ishikawa, N; Okubo, N; Ridgway, MC; Giulian,R; Mitsuishi, K; Nakayama, Y; Buchal, C; Mantl, S; Kishimoto,N Zn nanoparticles irradiated with swi� heavy ions at low�uences: Optically-detected shape elongation induced bynonoverlapping ion tracks, PHYSICAL REVIEW B 83 (20): Art.No. 205401 MAY 3 2011

336. Murai, S., Hattori, R., Matoba, T., Fujita, K., Tanaka, K. Enhan-cement of optical birefringence in tellurite glasses contai-ning silver nanoparticles induced via thermal poling, 2011Journal of Non-Crystalline Solids 357 (11-13), pp. 2259-2263


335. Anghinol�, L; Moroni, R; Mattera, L; Canepa, M; Bisio, F Flexi-ble Tuning of Shape and Arrangement of Au Nanoparticlesin 2-Dimensional Self-Organized Arrays: Morphology andPlasmonic Response, JOURNAL OF PHYSICAL CHEMISTRY C115 (29): 14036-14043 2011

334. H. Amekura, N. Ishikawa, N. Okubo, Y. Nakayama, K. Mit-suishi Asynchronous melting of embedded metal nanoparti-cles and silica matrix for shape elongation induced by swi�heavy ion irradiation, Nuclear Instruments and Methods inPhysics Research Section B: Beam Interactions with Mate-rials and Atoms, Volume 269, Issue 23, 1 December 2011,Pages 2730-2733

333. Murai, S., Tsujiguchi, T., Fujita, K., Tanaka, K. Enhanced formbirefringence of metal nanoparticles with anisotropic shellmediated by localized surface plasmon resonance, 2011Optics Express 19 (23), pp. 23581-23589

332. Rowan, CK; Paci, I Nanoparticle morphology and aspect ra-tio e�ects in Ag/PVDF nanocomposites, THEORETICAL CHE-MISTRY ACCOUNTS, 131 (1):10.1007/s00214-011-1078-6 JAN2012

331. Amekura, H; Sele, ML; Ishikawa, N; Okubo, N Thermal sta-bility of embedded metal nanoparticles elongated by swi�heavy ion irradiation: Zn nanoparticles in a molten statebut preserving elongated shapes, NANOTECHNOLOGY, 23(9):10.1088/0957-4484/23/9/095704 MAR 9 2012

330. Dintinger, J., Tang, B.-J., Zeng, X., Kienzler, T., Mehl, G.H.,Ungar, G., Rockstuhl, C., Scharf, T. Optical properties ofmesogen-coated gold nanoparticles, 2012 Proceedings ofSPIE - The International Society for Optical Engineering 8271, art. no. 827106

329. FRANCISCO JAVIER GUZMAN Y NIEVES EDDY HIRAN GARCIAVAZQUEZ, DESARROLLO EXPERIMENTAL DE UNA COMPUERTAOPTICA INVERSORA BASADA EN NANOPARTICULAS DE ORO,TESIS PARA OBTENER EL TITULO DE: INGENIERO EN COMU-NICACIONES Y ELECTRONICA, ESCUELA SUPERIOR DE INGE-NIERIA MECANICA Y ELECTRICA IPN, Junio 2012.

328. Khlebtsov, B.N., Khanadeev, V.A., Khlebtsov, N.G Extinctionand extra-high depolarized light scattering spectra of goldnanorods with improved purity and dimension tunability:Direct and inverse problems, Physical Chemistry ChemicalPhysics 16 (12), 28 March 2014, Pages 5710-5722

327. Stepanov, A.L. Ion-synthesis of silver nanoparticles andtheir optical properties, en Silver Nanoparticles: Properties,Characterization and Applications, January 2011, Pages 169-219

326. Zhang, W., Ye, W., Wang, C., Li, W., Yue, Z., Liu, G. Silver na-noparticle arrays enhanced spectral surface plasmon re-sonance optical sensor, Micro and Nano Letters Volume 9,Issue 9, 1 September 2014, Pages 585-587

325. Amekura, H., Mohapatra, S., Singh, U.B., Khan, S.A., Kulriya,P.K., Ishikawa, N., Okubo, N., Avasthi, D.K. Shape elonga-tion of Zn nanoparticles in silica irradiated with swi� heavyions of di�erent species and energies: Scaling law and someinsights on the elongation mechanism, Nanotechnology Vo-lume 25, Issue 43, 31 October 2014, Article number 435301

324. Amekura, H; Okubo, N; Ishikawa, N Optical birefringenceof Zn nanoparticles embedded in silica induced by swi�heavy-ion irradiation, OPTICS EXPRESS, 22 (24):29888-29898; 10.1364/OE.22.029888 DEC 1 2014

323. Moiseev, S.G., Ostatochnikov, V.A., Sementsov, D.I. In�uen-ce of size e�ects on the optical characteristics of a one-dimensional photonic crystal with a nanocomposite defect,JETP Letters Volume 100, Issue 6, 4 December 2014, Pages371-375

322. Amekura, H; Kono, K; Okubo, N; Ishikawa, N Shape elon-gation of embedded Zn nanoparticles induced by swi�heavy ion irradiation: A SAXS study, PHYSICA STATUSSOLIDI B-BASIC SOLID STATE PHYSICS, 252 (1):165-169;10.1002/pssb.201400138 JAN 2015

321. Nekrasova, TN; Andreeva, LN; Lezov, AA; Bezrukova, MA;Nazarova, OV; Zolotova, YI; Tsvetkov, NV; Panarin, EF Op-tical and hydrodynamic properties of solutions of co-polymers of N,N-dimethylaminoethyl methacrylate and2-deoxy-2-methacrylamido-D-glucose that contain silverparticles, POLYMER SCIENCE SERIES A, 57 (2):103-114;10.1134/S0965545X15020121 MAR 2015

320. Amekura, H Shape Elongation of Embedded Metal Nanopar-ticles Induced by Irradiation with Swi� Heavy Ions / ClusterIons, 2016 IEEE NANOTECHNOLOGY MATERIALS AND DEVI-CES CONFERENCE (NMDC), 2016.

319. Brick, D., Emre, E., Grossmann, M., Dekorsy, T., Hettich, M.Picosecond photoacoustic metrology of SiO2 and LiNbO3layer systems used for high frequency surface-acoustic-wave �lters, (2017) Applied Sciences (Switzerland), 7 (8), art.no. 822


TIPO B (9):


317. Torres-Torres, C; Reyes-Esqueda, JA; Cheang-Wong, JC;Crespo-Sosa, A; Rodriguez-Fernandez, L; Oliver, A, Opti-cal third-order nonlinearity by nanosecond and picosecondpulses in Cu nanoparticles in ion-implanted silica, Journalof Applied Physics 104 014306 (2008)

316. Rangel-Rojo, R., McCarthy, J., Bookey, H.T., Kar, A.K.,Rodriguez-Fernandez, L., Cheang-Wong, J.C., Crespo-Sosa,A., Lopez-Suarez, A., Oliver, A., Rodriguez-Iglesias, V., Silva-Pereyra, H.G. Anisotropy in the nonlinear absorption ofelongated silver nanoparticles in silica, probed by femto-second pulses, Optics Communications 282, 1909 (2009)



313. Silva-Pereyra, HG; Arenas-Alatorre, J; Rodriguez-Fernandez,L; Crespo-Sosa, A; Cheang-Wong, JC; Reyes-Esqueda, JA;Oliver, A High stability of the crystalline con�guration ofAu nanoparticles embedded in silica under ion and elec-tron irradiation, JOURNAL OF NANOPARTICLE RESEARCH 12(5): 1787-1795 JUN 2010


311. Torres-Torres, C; Tamayo-Rivera, L; Rangel-Rojo, R; Reyes-Esqueda, JA; Cheang-Wong, JC; Rodriguez-Fernandez, L;Crespo-Sosa, A; Oliver, A Femto-, pico- and nano-second re-fractive nonlinearities exhibited by Au nanoparticles, 22NDCONGRESS OF THE INTERNATIONAL COMMISSION FOR OP-TICS: LIGHT FOR THE DEVELOPMENT OF THE WORLD, 801110.1117/12.903259 2011

310. Fernandez-Hernandez, RC; Gleason-Villagran, R; Torres-Torres, C; Rodriguez-Fernandez, L; Crespo-Sosa, A; Cheang-Wong, JC; Lopez-Suarez, A; Rangel-Rojo, R; Oliver, A;Reyes-Esqueda, JA On the physical contributions to the

third-order nonlinear optical response in plasmonic na-nocomposites, JOURNAL OF OPTICS, 14 (12):10.1088/2040-8978/14/12/125203 DEC 2012

309. Can-Uc, B; Rangel-Rojo, R; Rodriguez-Fernandez, L; Oliver,A Polarization selectable nonlinearities in elongated silvernanoparticles embedded in silica, OPTICAL MATERIALSEXPRESS, 3 (12):2012-2021; 2013


Atomic structure of small and intermediate size silvernanoclusters, A. M. Angulo, Cecilia Noguez, J Phys ChemA 112, 5834 – 5838 (2008)

TIPO A (13):

308. K Bao, S Goedecker, K Koga, F Lancon, A Neelov Structureof large gold clusters obtained by global optimization usingthe minima hopping method, Phys. Rev. B 79 041405 (2009)

307. N Cathcart, V Kitaev Silver Nanoclusters: Single-Stage Sca-leable Synthesis of Monodisperse Species and Their Chi-rooptical Properties, J. Phys. Chem. C 114 (38): 16010-16017SEP 30 2010

306. Huang, WQ; Lai, XJ; Xu, RC Structural optimization of sil-ver clusters from Ag-141 to Ag-310 using a Modi�ed Dyna-mic Lattice Searching method with Constructed core, Chem.Phys. Lett. 507 (1-3): 199-202 APR 29 2011

305. Wang, BY; Liu, MX; Wang, YT; Chen, XS Structures and Ener-getics of Silver and Gold Nanoparticles, J. Phys. Chem. C 115(23): 11374-11381 JUN 16 2011

304. Grabowska, E; Zaleska, A; Sorgues, S; Kunst, M; Etcheberry,A; Colbeau-Justin, C; Remita, H —textitModi�cation of Ti-tanium(IV) Dioxide with Small Silver Nanoparticles: Appli-cation in Photocatalysis, J. Phys. Chem. C 117 (4):1955-19622013

303. Patala, S; Marks, LD; de la Cruz, MO Thermodynamic Analy-sis of Multiply Twinned Particles: Surface Stress E�ects,JOURNAL OF PHYSICAL CHEMISTRY LETTERS, 4 (18):3089-3094; 10.1021/jz401496d SEP 19 2013

302. Ramaraj, R. , Maduraiveeran, G. Metal nanoparticles em-bedded polymer matrix modi�ed electrodes for direct elec-trocatalysis and electrochemical sensor, inNanostructuredMaterials for Electrochemical Biosensors, 2009, Pages 65-96, Nova Science Publishers, Inc. ISBN: 978-160741706-4

301. Lan, Y.-K., Su, C.-H., Sun, W.-H., Su, A.-C. Nucleation of deca-hedral Ag nanocrystals, RSC Advances Volume 4, Issue 27,2014, Pages 13768-13773


300. Ahmadi, S., Zhang, X., Gong, Y., Chia, C.H., Sun, C.Q. Skin-resolved local bond contraction, core electron entrapment,and valence charge polarization of Ag and Cu nanoclus-ters, (2014) Physical Chemistry Chemical Physics, 16 (19) pp.8940-8948

299. Chaban, V Annealing relaxation of ultrasmall gold nanos-tructures, CHEMICAL PHYSICS LETTERS, 618 46-50; 2015

298. Kyrychenko, A; Pasko, DA; Kalugin, ON Poly(vinyl alcohol) asa water protecting agent for silver nanoparticles: the role ofpolymer size and structure, PHYSICAL CHEMISTRY CHEMICALPHYSICS, 19 (13):8742-8756; 2017

297. Sun, BC; Fernandez, M; Barnard, AS Machine Learning forSilver Nanoparticle Electron Transfer Property Prediction,JOURNAL OF CHEMICAL INFORMATION AND MODELING, 57(10):2413-2423; 10.1021/acs.jcim.7b00272 OCT 2017

296. Sultana, H; Lee, E Elucidating the Formation Mechanisms ofSilver Nanoparticles from a Comprehensive Simulation Ba-sed on First-Principles Calculations, JOURNAL OF PHYSICALCHEMISTRY C, 122 (2):1333-1344; 10.1021/acs.jpcc.7b09991JAN 18 2018Artıculo (citas 39):

Intrinsic Chirality in Bare Gold Nanoclusters: The Au−34 case,I. E. Santizo,F Hidalgo-Moreno, L. A. Perez, Cecilia Noguez,and I. L. Garzon, J Phys Chem C 112, 17533 – 17539 (2008)

TIPO A (35):

295. R Pal, L-M Wang, W Huang, L-S Wang X C Zeng, StructuralEvolution of Doped Gold Clusters: MAux- (M = Si, Ge, Sn; x= 5-8), J. Am. Chem. Soc. 131, 3396 (2009)

294. M R. Provorse, C M. Aikens, Origin of Intense ChiropticalE�ects in Undecagold Subnanometer Particles, J. Am. Chem.Soc. 132, 1302 (2010)

293. Shao N, Huang W, Gao Y, et al. Probing the Structural Evo-lution of Medium-Sized Gold Clusters: Au-n(-) (n=27-35), J.Am. Chem. Soc. 132, 6596 (2010)

292. Yao, H; Saeki, M; Kimura, K, Induced Optical Activity inBoronic-Acid-Protected Silver Nanoclusters by Complexa-tion with Chiral Fructose, J. Phys. Chem. C 114 (38): 15909-15915 SEP 30 2010

291. Govorov, AO Plasmon-Induced Circular Dichroism of a ChiralMolecule in the Vicinity of Metal Nanocrystals. Applicationto Various Geometries, J. Phys. Chem. C 115 (16): 7914-7923APR 28 2011

290. Gerard, VA; Gunko, YK; Defrancq, E; Govorov, AO Plasmon-induced CD response of oligonucleotide-conjugated metalnanoparticles, Chem. Comm. 47 (26): 7383-7385 2011



287. Beltran, MR; Raspopov, RS; Gonzalez, G Structural evolutionstudy of 1-2 nm gold clusters, EUROPEAN PHYSICAL JOURNALD, 65 (3):411-420; 10.1140/epjd/e2011-20273-2 DEC 2011

286. Rodriguez, J.I., Autschbach, J., Castillo-Alvarado, F.L.,Baltazar-Mendez, M.I. Size evolution study of molecular andatom-in-cluster polarizabilities of medium-size gold clus-ters, J. Chemical Physics 135 (3) , art. no. 034109 2011

285. Elgavi, H., Krekeler, C., Berger, R., Avnir, D. Chirality in cop-per nanoalloy clusters, J. Phys. Chem. C 116 (1) , pp. 330-3352012

284. Xu, K.-M., Huang, T., Wen, H., Liu, Y.-R., Gai, Y.-B., Zhang,W.-J., Huang, W. A density functional study of phosphorus-doped gold clusters: Au nP- (n = 1-8), 2013, RSC Advances3 (46) , pp. 24492-24502

283. Roy, S., Bhattacharya, K., Mandal, C., Dasgupta, A.K. Cellu-lar response to chirality and ampli�ed chirality, 2013, Jour-nal of Materials Chemistry B 1 (48) , pp. 6634-6643

282. Wan, XK; Yuan, SF; Lin, ZW; Wang, QM A Chiral Gold Na-nocluster Au-20 Protected by Tetradentate Phosphine Li-gands, ANGEWANDTE CHEMIE-INTERNATIONAL EDITION, 53(11):2923-2926; 10.1002/anie.201308599 MAR 10 2014


280. Li, Wei-Li and Zhao, Ya-Fan and Hu, Han-Shi and Li, Junand Wang, Lai-Sheng [B30]?: A Quasiplanar Chiral BoronCluster, Angewandte Chemie 53, 5540–5545 (2014),8

279. Schaefer, B., Pal, R., Khetrapal, N.S., Amsler, M., Sadeghi, A.,Blum, V., Zeng, X.C., Goedecker, S., Wang, L.-S. Isomerismand structural �uxionality in the Au26 and Au 26 - nano-clusters, ACS Nano Volume 8, Issue 7, 22 July 2014, Pages7413-7422


277. Sharma, A., Mori, T., Lee, H.-C., Worden, M., Bidwell, E., Heg-mann, T. Detecting, visualizing, and measuring gold nano-particle chirality using helical pitch measurements in nema-tic liquid crystal phases, ACS Nano Volume 8, Issue 12, 23December 2014, Pages 11966-11976


276. Zhan, P., Wang, Z.-G., Li, N., Ding, B. Engineering gold nano-particles with DNA ligands for selective catalytic oxidationof chiral substrates, 2015 ACS Catalysis 5 (3), pp. 1489-1498

275. Zhang, M., Zhang, J., Gu, T., (...), Luo, Y., Cao, W. First-principles investigations of chirality in trimetallic alloy clus-ters: AlMnAun (n = 1-7), 2015 Journal of Physical ChemistryA 119 (14), pp. 3458-3470

274. Xu, K.-M., Huang, T., Liu, Y.-R., (...), Gai, Y.-B., Huang, W.Probing the structures and electronic properties of dual-phosphorus-doped gold cluster anions (AunP2-, n = 1-8): Adensity functional theory investigation, 2015 Chemical Phy-sics 456, 9304, pp. 13-21


272. Joshi, K; Krishnamurty, S Behaviour of ’free-standing’hollowAu nanocages at �nite temperatures: a BOMD study,MOLECULAR PHYSICS, 113 (19-20):2980-2991; SI10.1080/00268976.2015.1062151 OCT 18 2015

271. Manzoor, D., Krishnamurty, S., Pal, S. Endohedrally dopedgold nanocages: E�cient catalysts for O2 activation andCO oxidation, 2016 Physical Chemistry Chemical Physics 18(10), pp. 7068-7074

270. Kumar, J., Thomas, K.G., Liz-Marzan, L.M. Nanoscale chira-lity in metal and semiconductor nanoparticles, 2016 Che-mical Communications 52 (85), pp. 12555-12569


268. Pande, S; Huang, W; Shao, N; Wang, LM; Khetrapal, N; Mei,WN; Jian, T; Wang, L.-S., Zeng, X.C. Structural Evolution ofCore-Shell Gold Nanoclusters: Aun- (n = 42-50), 2016 ACSNano 10 (11), pp. 10013-10022

267. Riva, S. Chirality in metals: an asymmetrical journey amongadvanced functional materials, 2017, Materials Science andTechnology (United Kingdom) 33(7), pp. 795-808

266. Khetrapal, NS; Bulusu, SS; Zeng, XC Structural Evolu-tion of Gold Clusters Au-n(-) (n=21-25) Revisited, JOUR-NAL OF PHYSICAL CHEMISTRY A, 121 (12):2466-2474;10.1021/acs.jpca.7b00367 MAR 30 2017


264. Chakraborty, I; Pradeep, T Atomically Precise Clustersof Noble Metals: Emerging Link between Atoms andNanoparticles, CHEMICAL REVIEWS, 117 (12):8208-8271;10.1021/acs.chemrev.6b00769 JUN 28 2017

263. Liu, X.J., Hamilton, I.P. A series of intrinsically chiral gold na-nocage structures, Nanoscale 9(29), pp. 10321-10326 2017

262. Ren, FQ; Zhang, FQ; Li, YF; Lv, J; Ma, WJ Density functionalstudy of the structural, stability, magnetic properties andchirality of small-sized AlxZry (x plus y ¡= 9) alloy clusters,JOURNAL OF THEORETICAL & COMPUTATIONAL CHEMISTRY,16 (7):10.1142/S0219633617500584 NOV 2017

261. Yang, HY; Yan, JZ; Wang, Y; Deng, GC; Su, HF; Zhao, XJ; Xu,CF; Teo, BK; Zheng, N.F. From Racemic Metal Nanoparticlesto Optically Pure Enantiomers in One Pot, 2017 Journal ofthe American Chemical Society 139(45), pp. 16113-16116

TIPO B (4):

260. Sauceda, H.E., Garzon, I.L. Structural determination of me-tal nanoparticles from their vibrational (phonon) density ofstates, 2015 Journal of Physical Chemistry C 119 (20), pp.10876-10880

259. Pelayo, J.D.J., Valencia, I., Diaz, G., Lopez-Lozano, X., Gar-zon, I.L. Enantiospeci�c adsorption of cysteine on a chiralAu34 cluster, 2015 European Physical Journal D 69 (12), 277


257. Sauceda, H.E., Garzon, I.L. Vibrational properties andspeci�c heat of core-shell Ag-Au icosahedral nanoparticles,2015 Physical Chemistry Chemical Physics 17(42), pp.28054-28059


Theoretical Study of Surface Plasmon Resonances inHollow Gold-Silver Double-Shell Nanostructures, C.E.Roman-Velzquez, Cecilia Noguez, J.J. Zhang, J Phys ChemA 113 4068 – 4074 (2009)

TIPO A (16):

256. Bakshi, MS, A Simple Method of Superlattice Formation:Step-by-Step Evaluation of Crystal Growth of Gold Nano-particles through Seed-Growth Method, Langmuir 25, 12697(2009)

255. Q Zha, R Q Snurr, Self-Di�usion Studies of Binary Mixtu-res in NaX Zeolites Using Pulsed Field Gradient NMR and aMaxwell-Stefan Model, J. Phys. Chem. A 113, 3904 (2009)



253. Chen, B; Jiao, XL; Chen, DR Fabrication of hollow cubic Agmicroboxes with net-like nano�ber structures and their sur-face plasmon resonance, Crystengcomm 13 (1): 204-211 2011

252. Hooshmand N, Jain PK, El-Sayed MA Plasmonic SpheroidalMetal Nanoshells Showing Larger Tunability and StrongerNear Fields Than Their Spherical Counterparts: An E�ect ofEnhanced Plasmon Coupling, J. Phys. Chem. Lett. 2, 374-3782011

251. Chassagneux, F; Bois, L; Simon, JP; Desroches, C; Brioude,A Elaboration and characterization of bimetallic gold-silvernanoparticles supported on mesostructured silica �lms, J.Material Chem. 21 (32): 11947-11955 2011

250. Cao, S., Zhao, Z., Jin, X., Sheng, W., Li, S., Ge, Y., Dong,M., Wu, W., Fang, L. Unique double-shelled hollow silica mi-crospheres: Template-guided self-assembly, tunable poresize, high thermal stability, and their application in remo-val of neutral red 2011 J. Materials Chemistry 21 (47), pp.19124-19131

249. Friedberg, R., Manassah, J.T. Tuning to the plasmonic ei-genfrequency and determining its decay rate in a sphericalnoble metal nanoshell, 2012, Chemical Physics Letters 539-540 , pp. 118-122

248. Qian, XH; Bai, J Theoretical Studies of the Optical Pro-perties of Hollow Spherical Metallic Nanoshells, JOURNALOF COMPUTATIONAL AND THEORETICAL NANOSCIENCE, 10(10):2354-2360; 10.1166/jctn.2013.3213 OCT 2013

247. Arnold, M., Blaber, M., Ford, M. Local plasmon resonancesof metal-in-metal core-shells, Optics Express 22 (3), 2014,3186-3198

246. Barry, M; Ding, B; Jung, Y; Reddy, BVK; Phuoc, TX; Chyu,MK Pulsed nanosecond laser ablation of gold in deionizedwater and aqueous chitosan solution, OPTICS AND LASERSIN ENGINEERING, 55 59-68; 10.1016/j.optlaseng.2013.10.019APR 2014

245. Hong, S., Acapulco, J.A.I., Jang, H.Y., Park, S. Au nanodisk-core multishell nanoparticles: Synthetic method for contro-lling number of shells and intershell distance, Chemistry ofMaterials Volume 26, Issue 12, 24 June 2014, Pages 3618-3623

244. Li, J., Zhou, J., Jiang, T., Wang, B., Gu, M., Petti, L., Mormile,P. Controllable synthesis and SERS characteristics of hollow

sea-urchin gold nanoparticles, Physical Chemistry Chemi-cal Physics Volume 16, Issue 46, 14 December 2014, Pages25601-25608

243. Cha�n, E., OConnor, R.T., Barr, J., Huang, X., Wang, Y. De-pendence of SERS enhancement on the chemical compo-sition and structure of Ag/Au hybrid nanoparticles, 2016Journal of Chemical Physics 145 (5), 054706

242. Xie, L; Yao, HJ; Duan, JL; Chen, YH; Lyu, SB; Maaz, K; Mo,D; Liu, J; Sun, YM; Hou, MD Investigation of optical pro-perties of Cu/Ni multilayer nanowires embedded in etchedion-track template, APPLIED SURFACE SCIENCE, 388 155-159;10.1016/j.apsusc.2016.02.016 A DEC 1 2016

241. Zhao, S.-M., Zhu, J. The e�ect of local dielectric environ-ment on the resonance light scattering of Au?Ag bimetallicnanotube, 2017 Applied Physics A: Materials Science andProcessing 123(12),785

TIPO B (2):

240. JZ Zhang Biomedical Applications of Shape-ControlledPlasmonic Nanostructures: A Case Study of Hollow GoldNanospheres for Photothermal Ablation Therapy of Cancer,J Phys Chem Lett 1, 686 (2010)

239. Pu, YC; Song, F; Zhang, WC; Lindley, S; Adams, S;Zhang, JZ Size-Tunable Synthesis of Hollow Gold Nanosp-heres through Control of Reaction Temperature, PARTI-CLE & PARTICLE SYSTEMS CHARACTERIZATION, 34 (8):SI10.1002/ppsc.201600255 AUG 2017


E�cient First-Principles Method for Circular Dichroism ofNanostructures, F. Hidalgo, A. Sanchez-Castillo, CeciliaNoguez, Phys Rev B 79, 075438 (2009)

TIPO A (12):

238. M. Savoini, P. Biagioni, G. Lakhwani, S. C. J. Meskers, L. Duo,and M. Finazzi, Near-�eld circular polarization probed bychiral poly�uorene, Opt. Lett. 34, 3571 (2009)

237. J D Correa , C G Rocha , A Latge and M Pacheco, Probingoptical spectra of carbon nanotubes with external �elds,2011 J. Phys.: Condens. Matter 23 065301


235. TIANA, G. E. MOLTENI and G. ONIDA. Towards ab initio cal-culations of circular dichroism of peptides, Epioptics-11: Pro-ceedings of the 49th Course of the International School ofSolid State Physics: Erice, Italy, 19-25 July 2010, 2012, p.107.



233. Huo, HJ; Li, Y; Yuan, Y; Lin, SW; Li, BZ; Wang, ML; Yang, YG Chi-ral Carbonaceous Nanotubes Containing Twisted Carbona-ceous Nanoribbons, Prepared by the Carbonization of ChiralOrganic Self-Assemblies, CHEMISTRY-AN ASIAN JOURNAL, 9(10):2866-2871; 10.1002/asia.201402569 OCT 2014

232. Molteni, E., Onida, G., Tiana, G. Conformational Dependen-ce of the Circular Dichroism Spectra of Single Amino Acidsfrom Plane-Waves-Based Density Functional Theory Calcu-lations, 2015 Journal of Physical Chemistry B 119 (14), pp.4803-4811

231. Liu, D., Li, B., Guo, Y., Li, Y., and Yang, Y. Inner Surface Chi-rality of Single-Handed Twisted Carbonaceous Tubular Na-noribbons Chirality, 27: 809?815, (2015)

230. Nagy, P.R., Koltai, J., Surjan, P.R., Kurti, J., Szabados, A. Re-sonance Raman Optical Activity of Single Walled Chiral Car-bon Nanotubes, 2016, Journal of Physical Chemistry A, (28),5527-5538

229. Cecconello, A., Kahn, J.S., Lu, C.-H., (...), Govorov, A.O., Will-ner, I. DNA Sca�olds for the Dictated Assembly of Le�-/Right-Handed Plasmonic Au NP Helices with ProgrammedChiro-Optical Properties, 2016 Journal of the American Che-mical Society 138 (31), pp. 9895-9901


227. Morell, ES; Chico, L; Brey, L Twisting dirac fermions:circular dichroism in bilayer graphene 2D MATERIALS, 4(3):10.1088/2053-1583/aa7eb6 SEP 2017


First-principles calculations of circular dichroism of bareand ligand-protected gold nanoparticles, F. Hidalgo, A.Sanchez-Castillo, I.L. Garzon, Cecilia Noguez, Eur Phys J D52, 179 – 182 (2009)

TIPO A (9):

226. M R. Provorse, C M. Aikens, Origin of Intense ChiropticalE�ects in Undecagold Subnanometer Particles, J. Am. Chem.Soc. 132, 1302 (2010)

225. Shukla, N., Bartel, M.A., Gellman, A.J. Enantioselective se-paration on chiral Au nanoparticles, 2010 J. the AmericanChemical Society 132 (25), pp. 8575-8580

224. Gautier, C; Burgi, T, Vibrational Circular Dichroism of Adsor-bed Molecules: BINAS on Gold Nanoparticles, J. Phys. Chem.C 114 (38): 15897-15902 SEP 30 2010


222. Burgess, RW; Keast, VJ TDDFT Study of the Optical Absor-ption Spectra of Bare and Coated Au(55) and Au(69) Clus-ters, J. Phys. Chem. C 115 (43): 21016-21021 2011

221. Mansfeld, D., Miersch, L., Ru�er, T., Schaarschmidt, D., Lang,H., Bohle, T., Tro�, R.W., (...), Mehring, M. From Bi22O26to chiral ligand-protected Bi 38O45-based bismuth oxidoclusters, 2011 Chemistry - A European Journal 17 (52) , pp.14805-14810


219. Shukla, N; Ondeck, N; Khosla, N; Klara, S; Petti, A; Gellman,A Polarimetric Detection of Enantioselective Adsorption byChiral Au Nanoparticles - E�ects of Temperature, Wave-length and Size, NANOMATERIALS AND NANOTECHNOLOGY,5 10.5772/60109 JAN 27 2015


TIPO B (1):



Understanding optical activity in single-wall carbonnanotubes from �rst-principles studies, A. Sanchez-Castillo,Cecilia Noguez, J Phys Chem C 114, 9640 (2010)

TIPO A (24):

216. Naoki Komatsu and Feng Wang A Comprehensive Re-view on Separation Methods and Techniques for Single-Walled Carbon Nanotubes, Materials 2010, 3(7), 3818-3844;doi:10.3390/ma3073818

215. F Wang, K Matsuda, A. F. M. Musta�zur Rahman, X Peng,T Kimura and N Komatsu, Simultaneous Discrimination of


Handedness and Diameter of Single-Walled Carbon Nanotu-bes (SWNTs) with Chiral Diporphyrin Nanotweezers Leadingto Enrichment of a Single Enantiomer of (6,5)-SWNTs, J. Am.Chem. Soc., 2010, 132 (31), pp 10876–10881

214. Peng, XB; Wang, F; Bauri, AK; Rahman, AFMM; Komatsu, NOptical Resolution of Single-Walled Carbon Nanotubes th-rough Molecular Recognition with Chiral Diporphyrin Na-notweezers, Chem. Lett. 39 (10): 1022-1027 OCT 5 2010

213. Wang, F., Matsuda, K., Rahman, A.F.M.M., Kimura, T., Ko-matsu, N. Improved selectivity in discriminating handed-ness and diameter of single-walled carbon nanotubes withN-substituted 3,6-carbazolylene-bridged chiral diporphyrinnanotweezers, Nanoscale 3 (10), 4117-4124

212. Srivastava, A.K., Pozhidaev, E.P., Chigrinov, V.G., Manohar, R.Single walled carbon nano-tube, ferroelectric liquid crystalcomposites: Excellent di�ractive tool, Applied Physics Let-ters 99 (20), art. no. 201106 2011

211. Tagliapietra, S; Cravotto, G; Gaudino, EC; Visentin, S; Mus-si, V Functionalization of Single-Walled Carbon Nanotubesthrough 1,3-Cycloaddition of Carbonyl Ylides under Micro-wave Irradiation, SYNLETT, (10):1459-1462; 10.1055/s-0031-1290681 2012

210. Ying, W., Shaochun, H., Yihong, O., Yu Ching, L., Junjie, B.,Yi, X. Microfabrication of photodetector based on carbonnanotube array, 2012, Journal of Nanoelectronics and Op-toelectronics 7 (4) , 366-369

209. Wu, Y., Zheng, F., Bai, J., Zhang, X., Ou, Y., Zhou, Z. Simu-lation on electrical �eld distribution of dielectrophoresis forcarbon nanotube, 2012, Proceedings of the 11th IEEE Inter-national Conference on Cognitive Informatics and CognitiveComputing, ICCI*CC 2012 , art. no. 6311203 , 518-521

208. Xiang, Y., Jiang, Y., Zhang, X., Bai, J. Study on the elec-tromagnetic model for optical properties of optoelectronicdevices based on carbon nanotube, (2013) Bandaoti Guang-dian/Semiconductor Optoelectronics, 34 (2) 197-199+203.

207. Ying, W., Cheng, Y.X., Shaochun, H., Yi, X., Yihong, O., Junjie,B. Photodetector based on carbon nanotube array, 2013,Journal of Nanoelectronics and Optoelectronics 8 (3) , 256-259

206. Ghosh, S; Bachilo, SM; Weisman, RB Structure-dependentOptical Activity of Single-walled Carbon Nanotu-be Enantiomers, FULLERENES NANOTUBES ANDCARBON NANOSTRUCTURES, 22 (1-3):269-279; SI10.1080/1536383X.2013.812640 JAN 1 2014

205. Nagy, PR; Surjan, PR; Szabados, A Vibrational optical acti-vity of chiral carbon nanoclusters treated by a generalized

pi-electron method, JOURNAL OF CHEMICAL PHYSICS, 140(4):10.1063/1.4862682 JAN 28 2014

204. Li, Y., Wang, X., Lv, R., Wang, F. Non-covalent separation ofoptically active single-walled carbon nanotubes, Progress inChemistry Volume 26, Issue 8, 15 August 2014, Pages 1361-1368


202. Wu, Y. , Bai, J., Huang, S., Zhang, X., Xiang, Y. Photoelectricityproperty of micro device based on carbon nanotubes, Pro-ceedings of 2014 IEEE 13th International Conference on Cog-nitive Informatics and Cognitive Computing, ICCI*CC 201410 October 2014, Article number 6921500, Pages 468-471,13th IEEE International Conference on Cognitive Informa-tics and Cognitive Computing, ICCI*CC 2014; London SouthBank University (LSBU)London; United Kingdom; 18 August2014 through 20 August 2014; Category numberCFP14312-ART; Code 108554

201. Nagy, PR; Biro, L; Koltai, J; Surjan, PR; Szabados, A; Kur-ti, J Theoretical vibrational optical activity of chiral carbonnanoparticles: Fullerenes and carbon nanotubes, PHYSICASTATUS SOLIDI B-BASIC SOLID STATE PHYSICS, 251 (12):2451-2456; 10.1002/pssb.201451206 DEC 2014

200. Liu, D; Li, BZ; Guo, YM; Li, Y; Yang, YG, Inner Surface Chi-rality of Single-Handed Twisted Carbonaceous Tubular Na-noribbons, CHIRALITY, 27 (11):809-815; 10.1002/chir.22496NOV 2015

199. Magg, M; Kadria-Vili, Y; Oulevey, P; Weisman, RB; Buergi, TResonance Raman Optical Activity Spectra of Single-WalledCarbon Nanotube Enantiomers, JOURNAL OF PHYSICAL CHE-MISTRY LETTERS, 7 (2):221-225; 10.1021/acs.jpclett.5b02612JAN 21 2016

198. Nagy, PR; Koltai, J; Surjan, PR; Kurti, J; Szabados, A Reso-nance Raman Optical Activity of Single Walled Chiral Car-bon Nanotubes, JOURNAL OF PHYSICAL CHEMISTRY A, 120(28):5527-5538; 10.1021/acs.jpca.6b04594 JUL 21 2016

197. Correa, J.D., Florez, E., Mora-Ramos, M.E. Ab initio study ofhydrogen chemisorption in nitrogen-doped carbon nanotu-bes, 2016 Physical Chemistry Chemical Physics 18 (36), pp.25663-25670

196. Li, E.Y. Systematic and e�cient band tracing for chiral CNTsvia natural helical crystal lattice model, 2016 Carbon 110,pp. 336-342


195. Wei, X., Tanaka, T., Yomogida, Y., (...), Saito, R., Kataura,H. Experimental determination of excitonic band structuresof single-walled carbon nanotubes using circular dichroismspectra, 2016 Nature Communications 7, 12899

194. Sato, N., Tatsumi, Y., Saito, R. Circular dichroism of single-wall carbon nanotubes, 2017 Physical Review B - CondensedMatter and Materials Physics 95(15),155436



Optically active nanoparticles: Fullerenes, carbon nanotu-bes and metal nanoparticles, Hidalgo, F; Cecilia Noguez,Physica Status Solidi b 247 (8): 1889-1897 2010

TIPO A (12):

192. Hendler, N; Fadeev, L; Mentovich, ED; Belgorodsky, B; Go-zin, M; Richter, S Bio-inspired synthesis of chiral silver na-noparticles in mucin glycoprotein-the natural choice, Chem.Comm. 47 (26): 7419-7421 2011


190. Kokhkharov, A.M., Zakhidov, E.A., Gofurov, Sh.P., Bakhramov,S.A., Makhmanov, U.K. Clusterization of fullerene C70 mole-cules in solutions and its in�uence to optical and nonlinearoptical properties of solutions, International Journal of Na-noscience Volume 12, Issue 4, August 2013, Article number1350027


188. Nagy, PR; Biro, L; Koltai, J; Surjan, PR; Szabados, A; Kur-ti, J Theoretical vibrational optical activity of chiral carbonnanoparticles: Fullerenes and carbon nanotubes, PHYSICASTATUS SOLIDI B-BASIC SOLID STATE PHYSICS, 251 (12):2451-2456; 10.1002/pssb.201451206 DEC 2014

187. Koktan, J., Sedlackova, H., Osante, I., Cativiela, C., Diaz Diaz,D., Rezanka, P. Chiral supramolecular nanoparticles: Thestudy of chiral surface modi�cation of silver nanoparticlesby cysteine and its derivatives, Colloids and Surfaces A:Physicochemical and Engineering Aspects Volume 470, April01, 2015, Pages 142-148

186. Liu, D; Li, BZ; Guo, YM; Li, Y; Yang, YG, Inner Surface Chi-rality of Single-Handed Twisted Carbonaceous Tubular Na-noribbons, CHIRALITY, 27 (11):809-815; 10.1002/chir.22496NOV 2015

185. Bai, H. Chapter 12: Organic reactions using green photo-active nanomaterials, 2016 RSC Green Chemistry 2016-January (42), pp. 294-308

184. Nagy, PR; Koltai, J; Surjan, PR; Kurti, J; Szabados, A Reso-nance Raman Optical Activity of Single Walled Chiral Car-bon Nanotubes, JOURNAL OF PHYSICAL CHEMISTRY A, 120(28):5527-5538; 10.1021/acs.jpca.6b04594 2016

183. Srebro-Hooper, M., Autschbach, J. Calculating Natural Opti-cal Activity of Molecules from First Principles, 2017 AnnualReview of Physical Chemistry 68, pp. 399-420


181. Sabirov, DS; Ori, O; Laszlo, I Isomers of the C-84 fullerene:A theoretical consideration within energetic, structural,and topological approaches, FULLERENES NANOTU-BES AND CARBON NANOSTRUCTURES, 26 (2):100-110;10.1080/1536383X.2017.1405389 2018


Role of morphology in the enhanced optical activity ofligand-protected metal nanoparticles, Cecilia Noguez,Sanchez-Castillo, A., Hidalgo, F., J Phys Chem Lett, 2 (9),1038-1044 2011

TIPO A (27):

180. Hartland, G.V., Schatz, G. Virtual issue: Plasmon resonan-ces - A physical chemistry perspective, Journal of PhysicalChemistry C 115 (31), 15121-15123 2011

179. Hartland, G.V. Assembling atoms to clusters and clusters tocrystals, Journal of Physical Chemistry Letters 2 (9), 1111-11122011

178. Assaf Ben Moshe, Daniel Szwarcman, and Gil Markovich,Size Dependence of Chiroptical Activity in Colloidal Quan-tum Dots, ACS Nano, Articles ASAP (Publication Date (Web):October 3, 2011 (Article) DOI: 10.1021/nn203234b

177. Govorov, A.O., Gun’Ko, Y.K., Slocik, J.M., Gerard, V.A., Fan,Z., Naik, R.R. Chiral nanoparticle assemblies: Circular di-chroism, plasmonic interactions, and exciton e�ects, 2011Journal of Materials Chemistry 21 (42), 16806-16818


176. Yao, H., Kitaoka, N., Sasaki, A. Chemical transformation ofchiral monolayer-protected gold clusters: Observation of li-gand size e�ects on optical and chiroptical responses, Na-noscale 4 (3) , 955-963, 2012

175. Tsukuda, T. Toward an atomic-level understanding of size-speci�c properties of protected and stabilized gold clusters,Bulletin of the Chemical Society of Japan 85 (2) , 151-168,2012

174. Akbari-Sharbaf, A., Hesari, M., Workentin, M.S., Fanchini,G. Electron paramagnetic resonance in positively chargedAu25 molecular nanoclusters, 2013, Journal of ChemicalPhysics 138 (2) , art. no. 024305

173. Fernandez-Corbaton, I., Vidal, X., Tischler, N., Molina-Terriza, G. Necessary symmetry conditions for the rotationof light, 2013, Journal of Chemical Physics 138 (21) , art. no.214311

172. Zhang, C., Song, C., Yang, W., Deng, J. Au at poly(N-propargylamide) nanoparticles: Preparation and chiral re-cognition, 2013, Macromolecular Rapid Communications 34(16) , 1319-1324

171. Zhang, K., Chen, H., Zhou, X., Gong, Y., Zhang, G., Wang,X., Chen, Y., Shi, J. Unconventional Pd nanoparticles growthinduced by a competitive e�ect between temperature-dependent coordination and reduction of gra�ed amino li-gands for Heck reaction, 2014, J Materials Chem A 2 (5),1515-1523


169. Yao, H., Kobayashi, R. Chiral monolayer-protected Au-Pd bi-metallic nanoclusters: E�ect of palladium doping on theirchiroptical responses, 2014, J Colloid and Interface Science419 , pp. 1-8

168. Govan, J.a, Loudon, A.a, Baranov, A.V.b, Fedorov, A.V.b,Gun’ko, Y. Chiral quantum dot based materials, Proceedingsof SPIE - The International Society for Optical EngineeringVolume 9126, 2014, Article number 912619 NanophotonicsV; Brussels; Belgium; 13 April 2014 through 17 April 2014;Code 105666

167. Kobayashi, R., Nonoguchi, Y., Sasaki, A., Yao, H. Chiralmonolayer-protected bimetallic Au-Ag nanoclusters: Allo-ying e�ect on their electronic structure and chiroptical acti-vity, Journal of Physical Chemistry C Volume 118, Issue 28,17 July 2014, Pages 15506-15515

166. Fernandez-Corbaton, I. Helicity and duality symmetry inlight matter interactions: Theory and applications, arXivpreprint arXiv:1407.4432 (2014).

165. Ueno, R., Yao, H. In�uence of surface protonation-deprotonation stimulion the chiroptica l responses of(R)-/(S)-mercaptosuccinic acid-protected gold nanoclusters,Chemistry Letters Volume 44, Issue 2, 2015, Pages 171-173

164. Bousquet, B, Cherif, M., Huang, K., & Rabilloud, F. Absor-ption Spectra of Aryl Thiol Coated Silver Nanoclusters: ATime-Dependent Density Functional Study, The Journal ofPhysical Chemistry C (2015) 119 (8), pp. 4268-4277.

163. Akin, S.T., Liu, X., Duncan, M.A. Laser synthesis and spec-troscopy of acetonitrile/silver nanoparticles, 2015 ChemicalPhysics Letters 640, pp. 161-164

162. Gerard, V., Govan, J., Loudon, A., (...), Fedorov, A.V., Gun’ko,Y.K. Optically active quantum dots, 2015 Proceedings of SPIE- The International Society for Optical Engineering 9545,95450N

161. Yao, H., Kobayashi, R., Nonoguchi, Y. Enhanced ChiropticalActivity in Glutathione-Protected Bimetallic (AuAg)18 Nano-clusters with Almost Intact Core-Shell Con�guration, 2016Journal of Physical Chemistry C 120 (2), pp. 1284-1292

160. Bousquet, B., Cherif, M., Huang, K., Rabilloud, F. Absorptionspectra of aryl thiol-coated silver nanoclusters: A time-dependent density-functional study, 2015 Journal of Phy-sical Chemistry C 119 (8) 4268-4277

159. Yao, H; Iwatsu, M Water-Soluble Phosphine-Protected Au-11Clusters: Synthesis, Electronic Structure, and Chiral PhaseTransfer in a Synergistic Fashion, LANGMUIR, 32 (13):3284-3293 2016






154. Yao, H; Tsubota, S; Nobukawa, R Water-Soluble Mixed-Phosphine-Protected Gold Clusters: Can a Single AxiallyChiral Ligand Lead to Large Chiroptical Responses?JOURNAL OF PHYSICAL CHEMISTRY C, 122 (2):1299-1308;10.1021/acs.jpcc.7b08528 JAN 18 2018


Designing the plasmonic response of shell nanoparticles:spectral representation, C. E. Roman-Velazquez, CeciliaNoguez, Journal of Chemical Physics 114(4), 044116-1 –044116-14 (2011)

TIPO A (15):

153. Wu, P.C., Losurdo, M., Kim, T.-H., Garcia-Cueto, B., Moreno,F., Bruno, G., Brown, A.S. Ga-Mg Core-shell nanosystem fora novel full color plasmonics, Journal of Physical ChemistryC 115 (28), 13571-13576 2011

152. Tan, QY; Xu, ML; Wu, JY; Yin, HF; Zhang, JQ Preparation andcharacterization of poly(lactic acid) nanoparticles for sus-tained release of pyridostigmine bromide, Pharmazie, 67(4):311-318; 10.1691/ph.2012.1103 APR 2012

151. Mammo, E.D., Marques-Hueso, J., Richards, B.S. Nanoplas-monics for photovoltaic applications, 2012, Proceedings ofSPIE - The International Society for Optical Engineering8438 , art. no. 84381M

150. Yan, W., Xu, L., Xu, C., Ma, W., Kuang, H., Wang, L., Kotov, N.A.Self-assembly of chiral nanoparticle pyramids with strongR/S optical activity, 2012, J. Am. Chem. Soc. 134 (36) , 15114-15121 4

149. Qiu, WJ; DeLacy, BG; Johnson, SG; Joannopoulos, JD; Solja-cic, M Optimization of broadband optical response of mul-tilayer nanospheres, Optics Express, 20 (16):18494-18504;JUL 30 2012

148. Gulen, D. Optical response of lorentzian nanoshells in thequasistatic limit, 2013, Journal of Physical Chemistry B 117(38) , 11220-11228

147. Arnold, M., Blaber, M., Ford, M. Local plasmon resonancesof metal-in-metal core-shells, Optics Express 22 (3), 2014,3186-3198

146. Miller, O.D., Hsu, C.W., Reid, M.T.H., Qiu, W., Delacy, B.G.,Joannopoulos, J.D., Soljacic, M., Johnson, S.G. Fundamentallimits to extinction by metallic nanoparticles, Physical Re-view Letters 112, Issue 12, 1 December 2013, Article number123903

145. Sikdar, D., Rukhlenko, I.D., Cheng, W., Premaratne, M. Tuna-ble Broadband Optical Responses of Substrate-Supported

Metal/Dielectric/Metal Nanospheres, Plasmonics Volume 9,Issue 3, June 2014, Pages 659-672

144. Ross, M.B., Schatz, G.C. Aluminum and indium plasmonic na-noantennas in the ultraviolet, Journal of Physical ChemistryC 118, Issue 23, 12 June 2014, Pages 12506-12514

143. Zapata, M., Beltran, A.S.C., Borisov, A.G., Aizpurua, J. Quan-tum e�ects in the optical response of extended plasmo-nic gaps: Validation of the quantum corrected model incore-shell nanomatryushkas, 2015 Optics Express 23 (6),pp. 8134-8149

142. Marinica, D.-C., Aizpurua, J., Borisov, A.G. Quantum e�ectsin the plasmon response of bimetallic core-shell nanostruc-tures, 2016 Optics Express 24 (21), pp. 23941-23956

141. Pascale, M., Miano, G., Forestiere, C. Spectral theory of elec-tromagnetic scattering by a coated sphere, (2017) Journalof the Optical Society of America B: Optical Physics, 34 (7)pp. 1524-1535.

140. Tzarouchis, DC; Sihvola, A General Scattering Characte-ristics of Resonant Core-Shell Spheres, IEEE TRANSAC-TIONS ON ANTENNAS AND PROPAGATION, 66 (1):323-330;10.1109/TAP.2017.2769688 JAN 2018

139. Tzarouchis, D., Sihvola, A. Light scattering by a dielectricsphere: Perspectives on the Mie resonances, AppliedSciences (Switzerland), 8(2), art. no. 184 (2018)


Electromagnetic Field Enhancement at the Edge of MetalNanostructures, Angulo, Ali; Cecilia Noguez; Schatz,George The Journal of Physical Chemistry Letters 2,1978–1983 (2011)

TIPO A (21):

138. Mortazavi, D., Kouzani, A.Z., Kaynak, A., Duan, W. Develo-ping LSPR design guidelines(2012) Progress in Electromag-netics Research, 126 203-235.

137. Khajehpour, K.J., Williams, T., Bourgeois, L., Adeloju, S. Goldnanothorns-macroporous silicon hybrid structure: A simpleand ultrasensitive platform for SERS, 2012 Chem. Comm. 48(43) , 5349-5351

136. Kirkeminde, A; Retsch, M; Wang, Q; Xu, GW; Hui, RQ; Wu, J;Ren, SQ Surface-passivated plasmonic nano-pyramids forbulk heterojunction solar cell photocurrent enhancement,Nanoscale, 4 (15):4421-4425; 10.1039/c2nr30735a 2012

135. Koen, K.A., Weber, M.L., Mayer, K.M., Fernandez, E., Willets,K.A. Spectrally-resolved polarization anisotropy of singleplasmonic nanoparticles excited by total internal re�ection,2012, J. Phys. Chem. C 116 (30) , 16198-16206


134. Ramos, R., Gordon, M.J. Re�ection-mode, confocal, tip-enhanced Raman spectroscopy system for scanning chemi-cal microscopy of surfaces, 2012, Review of Scienti�c Ins-truments 83 (9) , art. no. 093706

133. Mortazavi, D., Kouzani, A.Z., Matekovits, L. Evolution to-wards a new lspr particle: Nano-sinusoid, (2012) Progressin Electromagnetics Research, 132 199-213.

132. Sivapalan, S.T., Devetter, B.M., Yang, T.K., Schulmerich, M.V.,Bhargava, R., Murphy, C.J. Surface-enhanced Raman spec-troscopy of polyelectrolyte-wrapped gold nanoparticles incolloidal suspension, (2013) Journal of Physical ChemistryC, 117 (20) 10677-10682.

131. Valagiannopoulos, C.A., Sihvola, A. Improving the electros-tatic �eld concentration in a negative-permittivity wedgewith a grounded “bowtie” con�guration, 2013, Radio Scien-ce 48 (3) , 316-325

130. Valagiannopoulos, C.A., Sihvola, A. On enhancing the �eldin the vicinity of a metamaterial wedge with use of an auxi-liary dielectric tip, 2013, 2013 7th European Conference onAntennas and Propagation, EuCAP 2013 , art. no. 6546951 ,3452-3456

129. Patala, S., Marks, L.D., Olvera De La Cruz, M. Thermody-namic analysis of multiply twinned particles: Surface stresse�ects, 2013, J Phys Chem Letters 4 (18) , 3089-3094

128. Fan, Z., Kanchanapally, R., Ray, P.C. Hybrid graphene oxidebased ultrasensitive SERS probe for label-free biosensing,2013, J Phys Chem Lett 4 (21) , 3813-3818

127. Kanchanapally, R., Sinha, S.S., Fan, Z., Dubey, M., Zakar, E.,Ray, P.C. Graphene oxide-gold nanocage hybrid platformfor trace level identi�cation of nitro explosives using a ra-man �ngerprint, (2014) Journal of Physical Chemistry C, 118(13) pp. 7070-7075.

126. Bryks, W., Wette, M., Velez, N., Hsu, S.-W., Tao, A.R. Supra-molecular precursors for the synthesis of anisotropic Cu2Snanocrystals, Journal of the American Chemical Society 136,Issue 17, 30 April 2014, Pages 6175-6178

125. Mischok, A., Bruckner, R., Sudzius, M., Reinhardt, C., Lyssen-ko, V.G., Frob, H., Leo, K. Photonic con�nement in laterallystructured metal-organic microcavities, Applied Physics Let-ters Volume 105, Issue 5, 4 August 2014, Article number051108

124. Lu, P., Wang, D., Wan, L.-J. Tip-enhanced Raman spectros-copy in single molecule science, Chemistry Bulletin / Hua-xue Tongbao Volume 77, Issue 8, 1 August 2014, Pages 735-742

123. Maity, A; Maiti, A; Das, P; Senapati, D; Chini, TK E�ect ofIntertip Coupling on the Plasmonic Behavior of IndividualMultitipped Gold Nano�ower, ACS PHOTONICS, 1 (12):1290-1297; 10.1021/ph500309j DEC 2014

122. Huang, TX; Huang, SC; Li, MH; Zeng, ZC; Wang, X; Ren, B Tip-enhanced Raman spectroscopy: tip-related issues, ANALY-TICAL AND BIOANALYTICAL CHEMISTRY, 407 (27):8177-8195;10.1007/s00216-015-8968-8 NOV 2015

121. Paul, AM; Fan, Z; Sinha, SS; Shi, YL; Le, LD; Bai, FW; Ray, PCBioconjugated Gold Nanoparticle Based SERS Probe for Ul-trasensitive Identi�cation of Mosquito-Borne Viruses UsingRaman Fingerprinting, JOURNAL OF PHYSICAL CHEMISTRYC, 119 (41):23669-23675; 10.1021/acs.jpcc.5b07387 OCT 152015

120. Cicala, G., Massaro, A., Velardi, L.,Senesi, GS; Perna, G; Mar-zulli, D; Melisi, D; De Pascali, G; Valentini, A., Capozzi, V.Enhancement of surface electrical current on silicon via na-nodiamond particles deposited by pulsed spray technique,2015 Physica Status Solidi (A) Applications and MaterialsScience 212 (12), pp. 2862-2868

119. Kanchanapally, R., Fan, Z., Wesley, W., (...), Chavva, S.R., Ray,P.C. Detection of melamine from food in parts per quadri-llion level using functionalized graphene oxide- gold na-noparticle hybrid SERS platform, 2014 Source of the Docu-mentFood Poisoning: Outbreaks, Bacterial Sources and Ad-verse Health E�ects pp. 239-253

118. Qu, Z., Duan, P., Zhou, J., Wang, Y., Liu, M. Photon upconver-sion in organic nanoparticles and subsequent ampli�cationby plasmonic silver nanowires, 2018 Nanoscale 0, Issue 3,21 January 2018, Pages 985-991

TIPO B (1):

117. Pozzi, EK; Goubert, G; Chiang, NH; Jiang, N; Chapman, CT;McAnally, MO; Henry, AI; Seideman, T; Schatz, GC; Hersam,MC; Van Duyne, RP Ultrahigh-Vacuum Tip-Enhanced RamanSpectroscopy, CHEMICAL REVIEWS, 117 (7):4961-4982; 2017


Map of the Structural and Optical Properties of GoldNanoparticles at Thermal Equilibrium, Ana L. Gonzalez;Cecilia Noguez; Amanda S. Barnard, Journal of PhysicalChemistry C 116, 14170 –14175 (2012)

TIPO A (11):

116. Laha, R., Kasiviswanathan, S. Morphological changes ofsupported gold nanoparticles in Au(In) 2O3(Si): An atomicforce microscopic study, 2013, AIP Conference Proceedings


1536, PROCEEDING OF INTERNATIONAL CONFERENCE ON RE-CENT TRENDS IN APPLIED PHYSICS & MATERIAL SCIENCE (RAM2013) 235-236

115. Patala, S., Marks, L.D., Olvera De La Cruz, M. Thermody-namic analysis of multiply twinned particles: Surface stresse�ects, 2013, J Phys Chem Letters 4 (18) , 3089-3094

114. BERANEK, Bc JIRI. Surface Plasmon Resonances on Colloi-dal Nanoparticles. Brno: Vysoke ucentechnickv Brno, Fakul-ta strojnıho inzenyrstvı, 2013.

113. Lan, Y.-K., Su, C.-H., Sun, W.-H., Su, A.-C. Nucleation of deca-hedral Ag nanocrystals, RSC Advances Volume 4, Issue 27,2014, Pages 13768-13773

112. Lopez, C., Reyes Contreras, D., Mayorga Rojas, M., Diaz San-chez, L. E., Reyes Contreras, A., Arriera Castaneda, A., ... Ca-macho Lopez, S Sıntesis de puntos cuanticos de CdTe me-diante la tecnica de ablacion laser de solidos en lıquidos,Super�cies y vacıo, 2014, vol. 27, no 3, p. 93-97.

111. Mengle, KA; Richardson, JN; Kegerreis, JS Modeling of theprocessing dynamics of aerogel/gold nanoparticle compo-sites, MATERIALS CHEMISTRY AND PHYSICS, 148 (1-2):478-484; 10.1016/j.matchemphys.2014.08.021 NOV 14 2014


109. Lawrence, M; Testen, A; Koklic, T; Smithies, O A SimpleMethod for the Size Controlled Synthesis of Stable Oli-gomeric Clusters of Gold Nanoparticles under AmbientConditions, JOVE-JOURNAL OF VISUALIZED EXPERIMENTS,(108):10.3791/53388 FEB 2016

108. Long, N.V., Yang, Y., Thi, C.M., Lin, Z.L., Cao, Y., Nogami,M. New developments of gold nanoparticles in plasmonicsensing, (2016) New Developments in Gold NanomaterialsResearch, pp. 117-146.

107. Wang, HL; Zhou, S; Gilroy, KD; Cai, ZS; Xia, YN Icosahedralnanocrystals of noble metals: Synthesis and applications,NANO TODAY, 15 121-144; 10.1016/j.nantod.2017.06.011 AUG2017

106. Qi, X; Fichthorn, KA Theory of the thermodynamic in-�uence of solution-phase additives in shape-controllednanocrystal synthesis, NANOSCALE, 9 (40):15635-15642;10.1039/c7nr05765b OCT 28 2017

TIPO B (1):

105. Sun, B., Fernandez, M., Barnard, A. S. Statistics, damnedstatistics and nanoscience - using data science to meetthe challenge of nanomaterial complexity, NanoscaleHorizons, 1(2), 89-95, (2016)


Optical Activity of Achiral Ligand SCH3 Adsorbed on AchiralAg55 Clusters: Relationship between Adsorption Site andCircular Dichroism, Francisco Hidalgo; Cecilia Noguez; ACSNano 7, 513 – 521 (2013)

TIPO A (10):

104. Wang, X., Zou, Y., Zhu, J., Wang, Y. Silver cholesteric liquidcrystalline: Shape-dependent assembly and plasmonic chi-roptical response, 2013, J Phys Chem C 117 (27), 14197-14205


102. Xu, H., Cheng, D. E�ect of the Passivating Ligands on theGeometric and Electronic Properties of Au?Pd Nanoalloys,Journal of Cluster Science Volume 26, Issue 3, 1 May 2015,Pages 799-813

101. Fernando, A., Weerawardene, K.L.D.M., Karimova, N.V., Ai-kens, C.M. Quantum Mechanical Studies of Large Metal, Me-tal Oxide, and Metal Chalcogenide Nanoparticles and Clus-ters, 2015 Chemical Reviews 115 (12), 6112-6216

100. Choi, JK; Haynie, BE; Tohgha, U; Pap, L; Elliott, KW; Leonard,BM; Dzyuba, SV; Varga, K; Kubelka, J; Balaz, M ChiralityInversion of CdSe and CdS Quantum Dots without Changingthe Stereochemistry of the Capping Ligand, ACS NANO, 10(3):3809-3815; 10.1021/acsnano.6b00567 MAR 2016

99. Wang, YK; Deng, JC; Wang, G; Fu, T; Qu, Y; Zhang, ZY Plas-monic chirality of L-shaped nanostructure composed of twoslices with di�erent thickness, OPTICS EXPRESS, 24 (3):2307-2317; 10.1364/OE.24.002307 FEB 8 2016

98. Chang, L., Fisher, A., Liu, Z., Cheng, D. A density functio-nal theory study of sulfur adsorption on Ag-Au nanoalloys,2016 Computational and Theoretical Chemistry 1085, June01, 2016, Pages 66-74

97. J. Govan and Y. K. Gun’ko, Recent progress in chiral inorga-nic nanostructures, in SPR Nanoscience: Volume 3, 2016, 3,pp. 1-30





Mapping the Structural and Optical Properties of Anisotro-pic Gold Nanoparticles, Ana L. Gonzalez; Cecilia Noguez;Amanda S. Barnard J Materials Chem C 1(18), 3150 - 3157(2013)

TIPO A (6):

94. Koay, N., Burgess, I.B. , Kay, T.M., Nerger, B.A., Miles-Rossouw, M., Shirman, T., Vu, T.L., England, G., Phillips,K.R.f, Utech, S., Vogel, N., Kolle, M., Aizenberg, J. Hierarchi-cal structural control of visual properties in self-assembledphotonic-plasmonic pigments, Optics Express Volume 22,Issue 23, 17 November 2014, Pages 27750-27768

93. Batra, S., Unsal, E., Cakmak, M. Directed electric �eld Z-alignment kinetics of anisotropic nanoparticles for enhan-ced ionic conductivity, Advanced Functional Materials Volu-me 24, Issue 48, 23 December 2014, Pages 7698-7708


91. Constantin, D. Why the aspect ratio? Shape equivalence forthe extinction spectra of gold nanoparticles, 2015 EuropeanPhysical Journal E 38 (11), 116, pp. 1-6

90. Mori, T., Hegmann, T. Determining the composition of goldnanoparticles: a compilation of shapes, sizes, and calcula-tions using geometric considerations, 2016 Journal of Na-noparticle Research18 (10), 295



Size, Shape, Stability, and Color of Plasmonic Silver Na-noparticles, Gonzalez, Ana; Cecilia Noguez; Beranek, Jiri;Barnard, Amanda, J Phys Chem C 118 (17), pp 9128–9136(2014)

TIPO A (24):


87. Karim, W; Tschupp, SA; Oezaslan, M; Schmidt, TJ; Gobrecht, J;van Bokhoven, JA; Ekinci, Y High-resolution and large-areananoparticle arrays using EUV interference lithography, NA-NOSCALE, 7 (16):7386-7393; 10.1039/c5nr00565e 2015

86. Yan, ZR; Peng, Y; Wu, Y; Di, JW Controllable Electroche-mical Synthesis of Silver Nanoparticles on Indium-Tin-Oxide-Coated Glass, CHEMELECTROCHEM, 2 (4):578-583;10.1002/celc.201402369 APR 15 2015

85. Lopes, JH; Ye, SY; Gostick, JT; Barralet, JE; Merle, GElectrocatalytic Oxygen Reduction Performance ofSilver Nanoparticle Decorated Electrochemically Ex-foliated Graphene, LANGMUIR, 31 (35):9718-9727;10.1021/acs.langmuir.5b00559 SEP 8 2015

84. Andres, J; Gracia, L; Gouveia, AF; Ferrer, MM; Longo, E E�ectsof surface stability on the morphological transformation ofmetals and metal oxides as investigated by �rst-principlescalculations, NANOTECHNOLOGY, 26 (40):10.1088/0957-4484/26/40/405703 OCT 9 2015

83. Patil, S., George, T., Mahadik, K. Green synthesized nano-silver loaded silk �broin gel for enhanced wound healing,2015 Journal of Drug Delivery Science and Technology 30,pp. 30-36

82. Shahid-ul-Islam; Butola, BS; Mohammad, F Silver nanoma-terials as future colorants and potential antimicrobial agentsfor natural and synthetic textile materials, RSC ADVANCES,6 (50):44232-44247; 10.1039/c6ra05799c 2016

81. Liu, S., Yang, H., Zhao, X., (...), Zhang, L., Xing, R. Microwave-assisted synthesis of colloidal Ag nanocrystals and colori-metric detection of mercury (I and II) ions in aqueous solu-tion, 2016 Journal of Nanoscience and Nanotechnology 16(12), pp. 12326-12331

80. Kaatz, FH; Bultheel, A; Ori, O Kinetic Monte Carlo ap-proach to Schottky defects in noble metal nanoclus-ters, JOURNAL OF MATHEMATICAL CHEMISTRY, 55 (1):34-49;10.1007/s10910-016-0667-y JAN 2017

79. Bhardwaj, AK; Shukla, A; Mishra, RK; Singh, SC; Mishra,V; Uttam, KN; Singh, MP; Sharma, S; Gopal, R Power andTime Dependent Microwave Assisted Fabrication of SilverNanoparticles Decorated Cotton (SNDC) Fibers for Bac-terial Decontamination, FRONTIERS IN MICROBIOLOGY, 810.3389/fmicb.2017.00330 MAR 3 2017


78. Kuthati, Y; Kankala, RK; Busa, P; Lin, SX; Deng, JP; Mou,CY; Lee, CH Phototherapeutic spectrum expansion throughsynergistic e�ect of mesoporous silica trio-nanohybridsagainst antibiotic-resistant gram-negative bacterium, 2017Journal of Photochemistry and Photobiology B: Biology 169,pp. 124-133

77. Luo, Y., Wen, G., Ma, L., Liang, A., Jiang, Z. A Sensitive SERSQuantitative Analysis Method for Amino Acids Using Ruhe-manns Purple as Molecular Probe in Triangle Nanosilver SolSubstrate, 2017 Plasmonics 12 (2), pp. 299-308

76. Patra, M; Mukherjee, R; Banik, M; Dutta, D; Begum, NA; Basu,T Calcium phosphate-quercetin nanocomposite (CPQN): Amulti-functional nanoparticle having pH indicating, highly�uorescent and anti-oxidant properties, 2017 Colloids andSurfaces B: Biointerfaces 154, pp. 63-73

75. Roy, E; Patra, S; Saha, S; Kumar, D; Madhuri, R; Sharma,PK Shape e�ect on the fabrication of imprinted nanopar-ticles: Comparison between spherical-, rod-, hexagonal-,and �ower-shaped nanoparticles, 2017 Chemical Enginee-ring Journal 321, pp. 195-206

74. Luo, YH; Wen, GQ; Ma, L; Liang, AH; Jiang, ZL A Sensi-tive SERS Quantitative Analysis Method for Amino AcidsUsing Ruhemann’s Purple as Molecular Probe in Trian-gle Nanosilver Sol Substrate, PLASMONICS, 12 (2):299-308;10.1007/s11468-016-0264-8 APR 2017

73. Truong, LN; Dussauze, M; Allix, M; Chenu, S; Cardinal, T; Far-gin, E; Santos, LF Second harmonic generation in germano-tellurite bulk glass-ceramics, JOURNAL OF THE AMERICANCERAMIC SOCIETY, 100 (4):1412-1423; 10.1111/jace.14745 APR2017

72. Billing, BK; Agnihotri, PK; Singh, N Fabrication of branchednanostructures for CNT at Ag nano-hybrids: application inCO2 gas detection, JOURNAL OF MATERIALS CHEMISTRY C, 5(17):4226-4235; 10.1039/c7tc00984d MAY 7 2017


70. Ghosh, S; Boris, DR; Hernandez, SC; Zorman, CA; Walton, SG;Sankaran, RM Correlating charge �uence with nanoparticleformation during in situ plasma synthesis of nanocomposite�lms, 2017 Plasma Processes and Polymers 14(12),1700079

69. Lan, Y.-J., Chang, S.-J., Li, C.-C. Synthesis of conductive mi-crocapsules for fabricating restorable circuits, 2017 Journalof Materials Chemistry A 5(48), pp. 25583-25593

68. Bai, T., Lu, P., Guo, Z., Xiang, L., Liu, L. A simple approachtowards citrate-stabilized Ag nanoparticles with widely tu-nable sizes, Colloids and Surfaces A: Physicochemical andEngineering Aspects, 540, pp. 143-149

67. Shahid, M., Zhou, Y., Cheng, X.-W., (...), Chen, G., Tang, R.-C. Ferulic acid promoted in-situ generation of AgNPs at silkas functional colorants, 2018 Journal of Cleaner Production176, 1 March 2018, Pages 736-744

66. Sultana, H; Lee, E Elucidating the Formation Mechanisms ofSilver Nanoparticles from a Comprehensive Simulation Ba-sed on First-Principles Calculations, JOURNAL OF PHYSICALCHEMISTRY C, 122 (2):1333-1344; 10.1021/acs.jpcc.7b09991JAN 18 2018

65. Graf, C., Nordmeyer, D., Sengstock, C., (...), Rancan, F., Ruhl,E. Shape-Dependent Dissolution and Cellular Uptake of Sil-ver Nanoparticles, Langmuir, 34(4), pp. 1506-1519 (2018)

TIPO B (3):

64. Barnard, A.S. Clarifying stability, probability and populationin nanoparticle ensembles, Nanoscale Volume 6, Issue 17, 7September 2014, Pages 9983-9990

63. Sun, BC; Barnard, AS The impact of size and shapedistributions on the electron charge transfer propertiesof silver nanoparticles, NANOSCALE, 9 (34):12698-12708;10.1039/c7nr03472e SEP 14 2017

62. Sun, BC; Fernandez, M; Barnard, AS Machine Learning forSilver Nanoparticle Electron Transfer Property Prediction,JOURNAL OF CHEMICAL INFORMATION AND MODELING, 57(10):2413-2423; 10.1021/acs.jcim.7b00272 OCT 2017


Metallic in�uence on the atomic structure and opticalactivity of ligand-protected nanoparticles: a comparisonbetween Ag and Au, Francisco Hidalgo; Cecilia Noguez; M.Olvera de la Cruz, Nanoscale 6 (6), 3325 - 3334 (2014)

TIPO A (7):




59. Yao, H., Kobayashi, R., Nonoguchi, Y. Enhanced ChiropticalActivity in Glutathione-Protected Bimetallic (AuAg)18 Nano-clusters with Almost Intact Core-Shell Con�guration, 2016Journal of Physical Chemistry C 120 (2), pp. 1284-1292

58. Ranasingha, O; Wang, H; Zobac, V; Jelinek, P; Panapi-tiya, G; Neukirch, AJ; Prezhdo, OV; Lewis, JP Slow Re-laxation of Surface Plasmon Excitations in Au-55: TheKey to E�cient Plasmonic Heating in Au/TiO2, JOUR-NAL OF PHYSICAL CHEMISTRY LETTERS, 7 (8):1563-1569;10.1021/acs.jpclett.6b00283 APR 21 2016

57. J. Govan and Y. K. Gun’ko, Recent progress in chiral inorga-nic nanostructures, in Nanoscience: Volume 3, 2016, 3, pp.1-30

56. Ranasingha, O., Wang, H., Zobac, V., (...), Prezhdo, O.V., Le-wis, J.P. Slow Relaxation of Surface Plasmon Excitations inAu55: The Key to E�cient Plasmonic Heating in Au/TiO2,2016 Journal of Physical Chemistry Letters 7 (8) 1563

55. Guedes-Sobrinho, D., Chaves, A.S., Piotrowski, M.J., DaSilva, J.L.F. Density functional investigation of the adsor-ption e�ects of PH3 and SH2 on the structure stability ofthe Au55 and Pt55 nanoclusters, 2017 Journal of ChemicalPhysics 146(16),164304


Adsorption of a Methylthio Radical on Silver Nanoparticles:Size Dependence, David Becerril; Cecilia Noguez; J PhysChem C 119 (20), pp 10824–10835 (2015)

TIPO A (7):

54. Harris, R. A.; Mlambo, M.; Mdluli, P. S. Qualitative analysisof some alkanethiols on Au nanoparticles during SERS, RSCADVANCES Volume: 6 Issue: 15 Pages: 12131-12142 Published:2016

53. Chugh, M., Ranganathan, M. Adatom Interactions onGaN(0001) Surface I: Coverage-Dependent Adsorption, 2016Journal of Physical Chemistry C 120 (15), pp. 8076-8086

52. ISHIMOTO, T., INADOMI, Y., HONDA, H., KOYAMA, M. ParallelPerformance Analysis for Electronic Structure Calculation ofMetal Nanoparticles, Journal of Computer Chemistry, Japan,14(3), 52-53, (2015).

51. Prakash, J., Kumar, P., Harris, R.A., (...), Van Vuuren, A.J.,Swart, H.C. Synthesis, characterization and multifunctionalproperties of plasmonic Ag-TiO2 nanocomposites, 2016 Na-notechnology 27 (35), 355707


49. Mlambo, M., Hlatshwayo, T.T., Moloto, N., Mdluli, P.S.Computational and experimental evaluation of selectivesubstitution of thiolated coumarin derivatives on gold na-noparticles: Surface enhancing Raman scattering and elec-trochemical studies, 2017 Applied Surface Science 396, pp.695-704

48. Rodriguez-Kessler, P.L., Pan, S., Florez, E., Cabellos, J.L.,Merino, G. Structural Evolution of the Rhodium-DopedSilver Clusters AgnRh (n ? 15) and Their Reactivity towardNO, (2017) Journal of Physical Chemistry C, 121 (35) pp.19420-19427.


Chiral Atomically Thin Films, Cheol-Joo Kim, A. Sanchez-Castillo, Zack Ziegler, Yui Ogawa, Cecilia Noguez, andJiwoong Park, Nature Nanotechnology11, 520–524 (2016)

TIPO A (21):

47. T Chari, R Ribeiro-Palau, CR Dean, KL Shepard, Resistivity ofrotated graphite-graphene contacts, Nano Lett., 2016 (Com-munication) 16, Issue 7, 13 July 2016, Pages 4477-4482

46. Z Tan, J Yin, C Chen, H Wang, L Lin, L Sun, J Wu, X Sun, HYang, Y Chen, H Peng, and Z Liu, Building Large-DomainTwisted Bilayer Graphene with van Hove Singularity, ACSNano, 2016 10 (7), pp. 6725-6730

45. Nguyen, V.L., Perello, D.J., Lee, S., (...), Jeong, S.-Y., Lee, Y.H.Wafer-Scale Single-Crystalline AB-Stacked Bilayer Graphe-ne, 2016 pp. 8177-8183

44. Koo, E., Kim, S., Ju, S.-Y. Relationships between the opticaland Raman behavior of van Hove singularity in twisted bi-and few layer graphenes and environmental e�ects, 2017Carbon 111, pp. 238-247

43. Zheng, X., Gao, L., Yao, Q., (...), Luo, J., Wang, X. Robustultra-low-friction state of graphene via moire superlatticecon�nement, 2016 Nature Communications 7, 13204

42. Basov, D.N., Fogler, M.M., GarcIa De Abajo, F.J. Polaritons invan der Waals materials, 2016 Science 354 (6309), aag1992

41. Jungwirth, N.R., Calderon, B., Ji, Y., (...), Flatte, M.E., Fuchs,G.D. Temperature Dependence of Wavelength SelectableZero-Phonon Emission from Single Defects in HexagonalBoron Nitride, 2016 Nano Letters 16 (10), pp. 6052-6057

40. Di Mauro, A., Randazzo, R., Spano, S.F., (...), DUrso, A., Pu-rrello, R. Vortexes tune the chirality of graphene oxide andits non-covalent hosts, 2016 Chemical Communications 52(89), pp. 13094-13096


39. Yu, K; Kim, J; Kim, JY; Lee, W; Hwang, JY; Hwang, EH; Choi, EJInfrared spectroscopic study of carrier scattering in gatedCVD graphene, PHYSICAL REVIEW B, 94 (23):10.1103/Phys-RevB.94.235404 DEC 2 2016

38. Lin, J., Zhang, N., Tong, L., Zhang, J. Enhanced Raman Scat-tering on Graphene and beyond, 2016 ACS Symposium Se-ries1246, pp. 97-119 FRONTIERS OF PLASMON ENHANCEDSPECTROSCOPY, VOL 2, 1246 97-119; 2016

37. Castriciano, M.A., Gentili, D., Romeo, A., Cavallini, M., Sco-laro, L.M. Spatial control of chirality in supramolecular ag-gregates, 2017 Scienti�c Reports 7,44094

36. Wang, B., Huang, M., Kim, N.Y., (...), Lee, Z., Ruo�, R.S. Con-trolled Folding of Single Crystal Graphene, 2017 Nano Let-ters 17(3), pp. 1467-1473

35. Nakayama, K., Kuno, M., Yamauchi, K., (...), Sato, T., Ta-kahashi, T. Band splitting and Weyl nodes in trigonal te-llurium studied by angle-resolved photoemission spectros-copy and density functional theory, 2017 Physical Review B- Condensed Matter and Materials Physics 95(12),125204

34. Morell, ES; Chico, L; Brey, L Twisting dirac fermions: cir-cular dichroism in bilayer graphene 2D MATERIALS, 4(3):10.1088/2053-1583/aa7eb6 SEP 2017

33. Verre, R; Shao, L; Lank, NO; Karpinski, P; Yankovich, AB; An-tosiewicz, TJ; Olsson, E; Kall, M Metasurfaces and ColloidalSuspensions Composed of 3D Chiral Si Nanoresonators, AD-VANCED MATERIALS, 29 (29):10.1002/adma.201701352 AUG4 2017

32. Naumis, GG; Barraza-Lopez, S; Oliva-Leyva, M; Terrones, HElectronic and optical properties of strained graphene andother strained 2D materials: a review, REPORTS ON PRO-GRESS IN PHYSICS, 80 (9):1-62; 10.1088/1361-6633/aa74efSEP 2017

31. Wu, ZL; Zheng, YB Moire Chiral Metamaterials, ADVANCEDOPTICAL MATERIALS, 5 (16):SI 10.1002/adom.201700034AUG 16 2017

30. Xu, XZ; Zhang, ZH; Dong, JC; Yi, D; Niu, JJ; Wu, MH; Lin, L;Yin, RK; Li, MQ; Zhou, JY; Wang, SX; Sun, JL; Duan, XJ; Gao,P; Jiang, Y; Wu, XS; Peng, HL; Ruo�, RS; Liu, ZF; Yu, DP; Wang,EG; Ding, F; Liu, KH Ultrafast epitaxial growth of metre-sizedsingle-crystal graphene on industrial Cu foil, SCIENCE BU-LLETIN, 62 (15):1074-1080; 10.1016/j.scib.2017.07.005 AUG15 2017

29. Duong, DL; Yun, SJ; Lee, YH van der Waals LayeredMaterials: Opportunities and Challenges, ACS NANO, 11(12):11803-11830; 10.1021/acsnano.7b07436 DEC 2017

28. Robinson, JT; Culbertson, J; Berg, M; Ohta, T Work FunctionVariations in Twisted Graphene Layers, SCIENTIFIC REPORTS,8 10.1038/s41598-018-19631-4 JAN 31 2018

27. Stauber, T; Low, T; Gomez-Santos, G Chiral Response ofTwisted Bilayer Graphene, PHYSICAL REVIEW LETTERS, 120(4):10.1103/PhysRevLett.120.046801 JAN 25 2018

TIPO B (1):

26. Kang, K; Lee, KH; Han, YM; Gao, H; Xie, SE; Muller, DA;Park, J Layer-by-layer assembly of two-dimensionalmaterials into wafer-scale heterostructures, NATURE, 550(7675):229-233; 10.1038/nature23905 OCT 12 2017


Plasmonics of multifaceted metallic nanoparticles, �eldenhancement and TERS, Cecilia Noguez, C.J. Villagomez,A.L. Gonzalez, Physica Status Solidi B 252, 56–71 (2015)

TIPO A (1):

25. Maurer, R.J., Ruiz, V.G., Camarillo-Cisneros, J., (...), Reuter,K., Tkatchenko, A. Adsorption structures and energeticsof molecules on metal surfaces: Bridging experiment andtheory, 2016 Progress in Surface Science 91 (2) 72-100


Ab initio electronic circular dichroism of fullerenes,single-walled carbon nanotubes and ligand-protectedmetal nanoparticles, Cecilia Noguez; Francisco Hidalgo;Chirality 26 (9), 553 –562 (2014)

TIPO A (4):

24. Watanabe, G; Yoshida, J Molecular Dynamics Approach forPredicting Helical Twisting Powers of Metal Complex Dopantsin Nematic Solvents, J Phys Chem B 120 (27):6858-68642016

23. Srebro-Hooper, M., Autschbach, J. Calculating Natural Opti-cal Activity of Molecules from First Principles, 2017 AnnualReview of Physical Chemistry 68, pp. 399-420

22. Sau, S; Alsaab, HO; Kashaw, SK; Tatiparti, K; Lyer, AK Ad-vances in antibody-drug conjugates: A new era of targetedcancer therapy, DRUG DISCOVERY TODAY, 22 (10):1547-1556;10.1016/j.drudis.2017.05.011 OCT 2017

21. Komorowski, PG; Cottam, MG Electronic modes in car-bon nanotubes with single and double impurity sites,INTERNATIONAL JOURNAL OF MODERN PHYSICS B, 31(29):10.1142/S0217979217502204 NOV 20 2017



How to Control Optical Activity in Organic-Silver HybridNanoparticles, Francisco Hidalgo; Cecilia Noguez; Nanos-cale 8 (30), pp. 14457-14466 (2016)

TIPO A (3):

20. Yao, H; Shiratsu, T Improving the Quality ofElectrophoretically-fractionated Chiral Au-38(SG)(24)Nanoclusters through a Stepwise Phase-transfer ExtractionProcess: An Absorption and CD Spectroscopic Study,CHEMISTRY LETTERS, 46 (1):104-107; 2017


18. Kuno, J; Kawai, T; Nakashima, T The e�ect of surface ligandson the optical activity of mercury sul�de nanoparticles,NANOSCALE, 9 (32):11590-11595; 10.1039/c7nr02603j AUG28 2017


Plasmonic Response of Nested Nanoparticles with ArbitraryGeometry, R Dıaz, R Esquivel-Sirvent & Cecilia Noguez,Journal of Physical Chemistry C 120 (4), pp 2349–2354(2016)

TIPO B (1):

17. Santiago, E.Y., Esquivel-Sirvent, R. Near Field Heat Transferbetween Random Composite Materials: Applications andLimitations, 2017 Zeitschri� fur Naturforschung - Section AJournal of Physical Sciences 72(2), pp. 129-134

Capıtulo en libro (citas 1):

Quantum mechanical calculations of electronic and opticalproperties of semiconductor surfaces, Cecilia Noguez, andOlivia Pulci, “Quantum Chemical Calculations of Surfacesand Interfaces of Materials”, pages 217 –248, Editors: V.A. Basiuk and P. Ugliengo, American Scienti�c Publishers(2009)

TIPO B (1):

16. Marsili M, Pulci O The fascinating physics of carbonsurfaces: �rst-principles study of hydrogen on C(001),C(111) and graphene, J. Phys D-App. Phys. 43, 374016 (2010)

Memoria (citas 1):

The optical response of composites at low �lling fractions:a new diagrammatic summation, R. G. Barrera, Cecilia No-guez, y E. V. Anda, Surface Sciences: lectures on basic con-cepts and applications, pags. 249-255, ed. por F.A. Ponce yM. Cardona, Springer-Verlag, Berlın, (1991)

TIPO B (1):

15. R. G. Barrera, M. del Castillo–Mussot, G. Monsivais,P. Villaseor, and W. L. Mochan, Optical properties oftwo-dimensional disordered systems on a substrate, Phys.Rev. B 43, 13819 (1991)

Memoria (citas 3):

Dielectric response of a chain of disorded polarizablespheres: numerical simulation and theory, Pedro Vi-llasenor-Gonzalez, Cecilia Noguez, Ruben G. Barrera,Applications of multiple scattering theory to materialscience, MRS Symposium Proceedings, Vol. 253, pags.123-128, ed. por William H. Butler, Peter H. Dederichs, A.Gonis and R. Weaver, MRS, Pittsburgh, (1992)

TIPO A (3):

14. A. Gonis and W.H. Butler, Multiple Scattering in Solids, pag.5, (Springer – Verlag, New York), 2000

13. Cruz-Mandujano J, Mendoza BS Disorder e�ects on second-harmonic generation from one-dimensional arrays of po-larizable units, Phys. Rev. B 62, 8438 (2000)

12. Cruz J, Jonguitud E, Mendoza BS Second-harmonic gene-ration from disordered 1D chains of polarizable-spheres,Physica A 241, 12 (1997)

Memoria (citas 2):

Optical signature of the GaN(1010) surface, CeciliaNoguez, R. Esquivel-Sirvent, D.R. Alfonso, S.E. Ulloa andD.A. Drabold, MRS Symposium Proceedings Vol. 449, pp.911-916, (1997); editado por F.A. Ponce, T.D. Moustakas, I.Akasaki, B.A. Monemar

TIPO A (2):

11. Mo YH, Nahm KS, Yang SH, Kim KC, Lee WH, Suh EK, Lim KYGrowth and characterization of GaN thin �lms on beta-SiC/Sisubstrate using rapid thermal chemical vapor deposition JKorean Phys Soc 34, S364 Suppl. S (1999)


Memoria (citas 3):


Casimir Forces between thermally activated nanocom-posites, R Esquivel-Sirvent, C. Villarreal, Cecilia Noguez,MRS Symposium Proceedings Vol. 703, pp. 99 – 104, (2002)

TIPO B (3):

9. J. Barcenas, L. Reyes, R. Esquivel Sirvent, Casimir force bet-ween bimetallic heterostructures, physica status solidi (c) 2,3059 (2005)

8. Esquivel-Sirvent, R., Reyes, L., Barcenas, J., Stability and theproximity theorem in Casimir actuated nano devices, (2006)New Journal of Physics, 8 241.

7. R. Esquivel-Sirvent, Casimir force calculations near theinsulator -conductor transition in gold thin �lms, Phys. Rev.A 77, 042107 (2008)

Memoria (citas 4):

Light Scattering of isolated nanoparticles with arbitraryshapes, Cecilia Noguez, I. Sosa, R.G. Barrera. 2001 FallMeeting Proc., Symposium W Nanoparticulate Materials,Editors: R.K. Singh, R. Partch, M. Muhammed, M. Senna, H.Hofmann, MRS Proceedings Volume 704, pag. 275 – 280(2002)

TIPO A (4):

6. Kumbhar, A. S.; Kinnan, M. K.; Chumanov, G.; Multipole Plas-mon Resonances of Submicron Silver Particles, J. Am. Chem.Soc.; (Communication); 2005; 127(36); 12444-12445.

5. Kan, CX; Zhu, JJ; Zhu, XG, Silver nanostructures with well-controlled shapes: synthesis, characterization and growth

mechanisms, J. Physics D: Appl. Phys. 41, 155304 (2008)

4. Fitzgerald, TM; Marciniak, MA; Nauyoks, SE Development ofa tunable polarimetric scatterometry system in the MWIRand LWIR, Re�ection, Scattering, and Di�raction from Surfa-ces II 7792: Art. No. 779209 2010

3. T M. Fitzgerald, M A. Marciniak Full Optical Scatter Analysisfor Novel Photonic and Infrared Metamaterials, ConferenceProceedings of the Society for Experimental MechanicsSeries, 1, Volume 2, MEMS and Nanotechnology, Volume 2,Pages 97-105

Memoria (citas 1):

Casimir force between a sphere and a plane: spectralrepresentation formalism, Cecilia Noguez, C. E. Roman-Velazquez, en las memorias de “Quantum Field TheoryUnder the In�uence of External Conditions”, pags. 97 –103, Rinton Press, Ed. por K. A. Milton (2004)

TIPO A (1):



Comunicacion Privada

TIPO A (1):

1. K. Pedersen and P. Morgen, Dispersion of 2nd harmonic ge-neration on Si(111)-7×7, Phys Rev B 52, R2277, (1995).


LISTA DE TRABAJOS EN CONGRESOS CON PARTICIPACION REGULAR

137 presentaciones regulares de un total de 315 incluyendo conferencias invitadas (ver arriba)

315. Ultrastability and Charge Distribution in Silver, Gold andBimetallic Clusters: The Ag44-xAux(SR)304- and Ag25-xAux(SR)181- cases, Morera-Boado, C; Hidalgo, F; CeciliaNoguez, XVI Reunion Mexicana de Fisicoquımica Teorica.Noviembre, Puebla, 2017

314. Chiroptical Response of Twisted-Bilayer Graphene and Ap-plications, Cecilia Noguez, 16th International Conferenceon Chiroptical Spectroscopy 2017, 11th to 15th June, 2017,Rennes, France.

313. Radiative Heat Transfer between Plasmonic Nanospheres ,David Becerril, Cecilia Noguez, 2017 MRS Spring Meeting,Phoenix, Arizona, Abril 16 –20.

312. Controlling Optical Activity in Two-atom-thick Graphene,Cecilia Noguez, A Sanchez-Castillo, 18 International Con-ferences in Solid Films and Surfaces, Chemnitz, Alemania,August 28 to Sept. 2 2016

311. PLASMONIC RESPONSE OF GOLD NANORODS: SHAPE, SIZEAND ORIENTATION DEPENDENCE, Ana L Gonzalez, CeciliaNoguez XXV International Materials Research Congress 16-20 Agosto 2016

310. Radiative Heat Transfer Between Plasmonic Nanoparticles,D. Becerril, Cecilia Noguez XXV International Materials Re-search Congress 16-20 Agosto 2016

309. E�ects of core size and position on the near �eld of Au-Agcore-shell nanoprolate dimers, H. Batiz, G. Pirruccio, CeciliaNoguez XXV International Materials Research Congress 16-20 Agosto 2016

308. Morphology and optical activity: understanding electroniccircular dichroism in ligand-protected noble metal nanopar-ticles, F Hidalgo, Cecilia Noguez XXV International MaterialsResearch Congress 16-20 Agosto 2016

307. Designing the plasmonic modes in nanoparticles, D. Bece-rril, Cecilia Noguez Heat Transfer and Heat Conduction onthe Nanoscale, Physikzentrum Bad Honnef, Alemania Abril2016

306. Morphological Changes of Plasmonic Nanoparticles whenthe system is heated up, A. L. Gonzalez, Cecilia Noguez,Amanda S. Barnard, International Symposium on Interactionof Radiation with Matter 2015 Toluca, Edo. de MExico 11 al13 de nov. de 2015

305. Map of Structural and Optical Properties of Plasmonic Na-noparticles at Thermal Equilibrium,A. L. Gonzalez, Cecilia

Noguez, Amanda S. Barnard, Conference on Frontiers of Na-noscience, ICTP, Miramare- Trieste, Italy 24 de agosto a 1ode septiembre de 2015

304. Optical and Structural Properties of silver and gold nano-particles as a function of size and temperature, A. L. Gonza-lez, Cecilia Noguez, Amanda S. Barnard, XXIV InternationalMaterials Research Congress, Canc˙n, MExico 16 a 20 deagosto, 2015

303. Mathematical Aspects of Recursive E�ective Medium Theo-ries in Layered Nanoparticles, Rafael Dıaz, Raul Esquivel,Cecilia NoguezXXIV International Materials Research Con-gress 16-20 Agosto 2015

302. Numerical calculations of the plasmonic response of nes-ted nanoparticles, H. Batiz-G, Cecilia Noguez, R. Dıaz-HR,XXIV International Materials Research Congress 16-20 Agos-to 2015

301. SIZE DEPENDCE OF ADSORPTION PROPERTIES OF METHYLT-HIO ON SILVER NANOPARTICLES, David Becerril, Cecilia No-guez, XXIV International Materials Research Congress 16-20Agosto 2015

300. Design and challenges of a STM/AFM set-up in UHV and lowtemperature, C. J. Villagomez, G. Pirruccio, Cecilia Noguez,XXIV IMRS, Cancun, Mexico, August 15-21, 2015.

299. Understanding optical activity in ligand-protected noblemetal nanoparticles: intrinsic and geometric chirality, Fran-cisco Hidalgo, Cecilia Noguez, 11th International Conferenceon Optics of Surfaces and Interfaces (OSI-11), June 28 ? July3, 2015 in Austin, Texas, USA

298. Plasmonic response of nested nanoparticles with arbitrarygeometry, R. Esquivel-Sirvent, Cecilia Noguez, Rafael D.H.Rojas, 11th International Conference on Optics of Surfacesand Interfaces (OSI-11), June 28–July 3, 2015 in Austin, Te-xas, USA

297. Adsorption of Methyl Thiol on Silver Nanoclusters: Size De-pendence, D. Becerril, Cecilia Noguez, 8th. Photodynamicsand Related Aspect meeting, Oaxaca, octubre 2014

296. Handedness Assigment of Semiconductor Single-WalledCarbon Nanotubes, Cecilia Noguez, MRS New diamond andnew carbon, Chicago, Il, mayo 2014

295. Adsorption energy of methyl thiol on silver nanoclusters:size dependence, D. Becerril, F. Hidalgo, Cecilia Noguez,XXII International Materials Research Congress, 11-15 Agosto2013, Cancun, Mexico


294. On the Absolute Con�guration of Semiconductor Single-Walled Carbon Nanotubes Cecilia Noguez, AriadnaSanchez-Castillo, 14th International Conference of Chiropti-cal Spectroscopy, Vanderbilt University, Nashville, TN, USA,June 9-13, 2013

293. Temperature and Shape Dependent Optical Properties ofGold Nanoparticles, Ana L. Gonzalez, Cecilia Noguez, A. S.Barnard, V International Conference on Surfaces, Materialsand Vacuum 2012, Mexico, Septiembre de 2012.

292. Optical activity and its relationship with adsorption site andnanoparticle size of Agx-SCH3, Hidalgo, F.; Cecilia Noguez,EpiOptics12-School, Italia, Julio de 2012.

291. Optical activity in the Ag55-SCH3 compound, Hidalgo, F.;Cecilia Noguez, Pan-American Advanced Studies InstituteComputational Material Science for Energy Generation andConversion, Chile, Enero de 2012.

290. Determination of the absolute handedness in semiconduc-tor carbon nanotubes, Ariadna Sanchez-Castillo, CeciliaNoguez, Optics of Surfaces and Interfaces 9, Septiembre,2011

289. Color Catalogue of Gold Nanoparticles as a Function of Sizeand Temperature, Ana L. Gonzalez, Cecilia Noguez, AmandaBanard, Optics of Surfaces and Interfaces 9, Septiembre,2011

288. Surface Plasmon Resonance in Single Metal Nanoparticlesand 1D-Nanostructure Arrays for the Control of EnhancedSpectroscopies, C. E. Roman-Velazquez, Cecilia Noguez, Na-nostructured Material and Nanotechnology Simposium 1, ofthe XIX International Materials Research Congress, Agosto,2010.

287. On the origin of optical activity in chiral nanostructures, Ce-cilia Noguez, A. Sanchez-Castillo, IX Brazilian MRS Meeting2010, Octubre, 2010.

286. Estudio de los Plasmones de Super�cie de Nanoshells Multi-ples, C. E. Roman-Velazquez y Cecilia Noguez, LII CongresoNacional de Fısica, Acapulco Gro., octubre 26-30 2009.

285. Surface Enhanced Raman Scattering (SERS) on a meta-llic wedge, Alı M. Angulo Martınez y Cecilia Noguez, 4thCANADA-AMERICA-MEXICO Graduate Student Physics Con-ference, Acapulco Gro., October 22 - 24, 2009

284. Circular dichroism of passivated gold nanoclusters, A.Sanchez-Castillo, Cecilia Noguez, Symposium ProtectedMetallic Clusters, Quantum Wells and Metal-nanocrystalMolecules, American Chemical Society 238th National Mee-ting 16–20 August, 2009, Washington DC EU.

283. Chirality, optical activity, and enantiospeci�c adsorption ingold clusters, I. E. Santizo, F. Hidalgo-Moreno, L. A. Perez,Cecilia Noguez, I L. Garzon, XIV International Symposiumon Small Particles and Inorganic Clusters, Valladolid, SpainSeptember 15-19, 2008.

282. Ab initio Calculations of the Circular Dichroism in Chiral Fu-llerenes and Bare and Passivated gold nanoclusters, F. Hi-dalgo, A. Sanchez-Castillo, Ignacio L. Garzon, Cecilia No-guez,EPIOPTICS-10 International School of Solid State Physics,Erice - Sicily, 20 - 27 June 2008.

281. Optical circular dichroism of bare and passivated Au chi-ral clusters Cecilia Noguez, A. Sanchez-Castillo, F. Hidalgo,Ignacio L. Garzon, American Chemical Society, March Mee-ting, Chicago (2007).

280. First Principle Calculation of Circular Dichroism in CarbonNanotubles, A. Sanchez-Castillo, Cecilia Noguez, Chirality2007, San Diego California, 8 –11 de Julio.

279. Optical circular dichroism of bare and passivated Au nano-clusters, A. Sanchez-Castillo, F. J. Hidalgo, I.L. Garzon, andCecilia Noguez, Internationa Conference “Chirality at theNanoscal”, Sitges, Barcelona 17th - 21st September 2007.

278. Interacting surface plasmons and the role of geometry ondispersive forces, Cecilia Noguez, Carlos Roman-Velzquez,Dispersion Forces and Nano-Electro-Mechanical Systems,Lorentz Center, Leiden Holanda, Dic. 9 – 15 (2006).

277. Interacting surface plasmons between macroscopic bodies:geometrical e�ects on dispersive forces, Cecilia Noguez,Carlos Roman-Velzquez, ”Seventh Workshop on QuantumField Theory under the In�uence of External Conditions”,IEEC, CSIC and University of Barcelona Barcelona, Catalonia,Spain, September 5-9, 2005

276. Optical properties of isolated and supported metal nano-particles, Cecilia Noguez, Paci�chem 2005, Meeting, Ho-nolulu, Hawaii.

275. Optical properties of chiral nanostructures, Cecilia Noguez,Roman-Velazquez Carlos E., Garzon Ignacio L. Annual APSMarch Meeting 2004, March 22 – 26, 2004, Montreal, Que-bec, Canada.

274. Optical properties of chiral nanotubes, Cecilia Noguez,Roman-Velazquez Carlos E., Sanchez Ariadna, Meza Mon-tes Lilia, Annual APS March Meeting 2004, March 22 – 26,2004, Montreal, Quebec, Canada.

273. Calculo de espectros de dicroismo circular de nanotubosquirales Ariadna Sanchez-Castillo, C. E. Roman-Velazquez,


Cecilia Noguez, L. Meza-Montes VI Taller Nacional de Es-tudiantes de Posgrado en Fısica y Ciencia de Materiales,Puebla 2004

272. Estudio teorico de nanotubos de carbono por medio de di-croismo circular Ariadna Sanchez Castillo, Carlos E. RomanVelazquez, Cecilia Noguez, y L. Meza Montes IX EncuentroRegional de Investigacion y Ensenanza de la Fısica, Puebla,Junio 2004.

271. Propiedades opticas de nanoestructuras quirales, CeciliaNoguez, Congreso Interno Anual, Instituto de Fisica, UNAM,Mexico D.F. 11 – 13 de mayo 2004.

270. Circular dichroism spectra of chiral gold nanoclusters, I.L.Garzon, C.E. Roman-Velazquez, Cecilia Noguez, March Mee-ting of the American Physical Society Austin, EUA Marzo 3-7,2003.

269. Chirality and circular dichroism spectra of gold nanoclus-ters, I.L. Garzon, C.E. Roman-Velazquez, Cecilia Noguez,225th National Meeting of the American Chemical SocietyNew Orleans, EUA Marzo 23-27, 2003.

268. Optical Properties of the cleavage InAs(110) surface X.Lopez-Lozano, Cecilia Noguez, L. Meza-Montes Optics ofSurfaces and Interfaces V, Leon Guanajuato, Mexico 26 –30, 2003.

267. High-Multipolar e�ects on dispersive forces between ananoparticle and a surface Cecilia Noguez, C.E. Roman-Velazquez, C. Villarreal, and R. Esquivel-Sirvent Optics ofSurfaces and Interfaces V, Leon Guanajuato, Mexico 26 –30, 2003.

266. Spectral representation of the Casimir force between asphere and a substrate, Cecilia Noguez, C.E. Roman-Velazquez, C. Villarreal and R. Esquivel- Sirvent 8th Inter-national Conference on Squeezed States and UncertaintyRelations ICSSUR’2003, Puebla, Mexico, June 9-13, 2003.

265. Optical Characterization of Metal Nanparticles with Arbi-trary Shapes Cecilia Noguez, Ivan O. Sosa, Ruben G. Ba-rrera X International Congress of Composite Engineering:Nanocomposites (ICCE X) New Orleans July 20-26, 2003.

264. Circular dichroism simulated spectra of chiral gold na-noclusters: A dipole approximation, Cecilia Noguez, C.E.Roman-Velazquez, I.L. Garzon XII International Materials Re-search Congress, Cancun 17 – 22, 2003.

263. Spectral representation of the Casimir Force Between a Sp-here and a Substrate C.E. Roman-Velazquez, Cecilia No-guez, C. Villarreal and R. Esquivel-Sirvent, Sixth Workshopon Quantum Field Theory under the In�uence of ExternalConditions, Norman Oklahoma, 15 – 19, 2003

262. Fuerzas de casimir de una nanopartıcula en un substra-to Cecilia Noguez, C. Roman Velazquez, C. Villarreal y R.Esquivel-Sirvent XLV Congreso Nacional de Fısica, Leon Gto.,octubre 2002.

261. Propiedades electronicas de super�cies semiconductorasideales X. Lopez Lozano, Cecilia Noguez, y L. Meza MontesV Taller de Estudiantes de Posgrado, Puebla 2002

260. Propiedades electronicas de las super�cies semiconducto-ras ideales GaAs e InAs X. Lopez Lozano, Cecilia Noguez,y L. Meza Montes VIII Encuentro Regional de Investigaciony Ensenanza de la Fısica, Puebla 2002.

259. Electronic structure of the reconstructed surface InAs(110)X. Lopez-Lozano, Cecilia Noguez, y L. Meza-Montes Socie-dad Mexicana de Ciencia de Super�cies y Vacıo A.C., XXIICongreso Nacional, Octubre 2002.

258. Dicroismo circular optico de cumulos atomicos de oro C.Roman-Velazquez, Cecilia Noguez, y I.L. Garzon. XLV Con-greso Nacional de Fısica, Leon Gto., octubre 2002.

257. Casimir foreces in non-homogeneous planar and spheri-cal systems, Villarreal, C., Esquivel-Sirvent, R., Mochan, L.y Cecilia Noguez, ITAMP Workshop 2002: Casimir forces:recent developments in experiments and theory, HarvardCambridge, noviembre 2002.

256. Di�erential re�ectance of a planar system of self-assembled quantum dots Ruben G. Barrera, Cecilia Noguez,Sergio E. Ulloa March Meeting, Atlanta Georgia, 1999.

255. Electron Energy-Loss for anisotropic systems: Applicationto GaN (10øverline10) Raul Esquivel-Sirvent, Cecilia No-guezMarch Meeting, Atlanta Georgia, 1999.

254. Viscoelastic porperties of colloidal suspensions R. Esquivel-Sirvent, Cecilia Noguez, G. Ramirez-Santiago Materials Re-search Society, Fall Meeting, Boston, Dic. 1999.

253. Electron Energy-Loss and Optical Spectra of GaN (1010)and (110) surfaces Cecilia Noguez, March Meeting, AtlantaGeorgia, marzo 1999.

252. Optical properties of non-polar GaN surfaces Cecilia No-guez, The Third International Conference on Nitride Semi-conductors Montpellier, Francia julio 5 – 9, 1999.

251. First-Principles calculations of optical properties of semi-conductor surfaces Cecilia Noguez, Materials Research So-ciety, Fall Meeting, Boston, Dic. 1999.

250. Spectroscopic theoretical study of the atomic reconstruc-tion of GaN (1010) Cecilia Noguez, International MaterialsResearch Congress, Symposium 9, August 30-September 4,Cancun, Mexico, 1998.


249. Molecular Dynamics Simulations of Acoustic Properties ofColloidal Suspensions Cecilia Noguez, R. Esquivel-Sirvent,G. Ramırez-Santiago March Meeting, Los Angeles California,1998.

248. Theory of electron energy loss for anisotropic systems:Application to GaN (1010) Cecilia Noguez, and R. EsquivelSirvent International Materials Research Congress, Sympo-sium 9, August 30-September 4, Cancun, Mexico, 1998.

247. Molecular Dynamic Simulations of acoustic propertiesof colloidal suspensions G. Ramırez-Santiago, R. Esquivel-Sirvent, Cecilia Noguez, MRS Fall 97 Meeting, Boston Mass.1-5 diciembre, 1997.

246. Optical signature of the GaN(1010) surface Cecilia Noguez,R. Esquivel-Sirvent, S.E. Ulloa and D.A. Drabold, March Mee-ting, Kansas City, 17-21 de marzo 1997.

245. Propiedades opticas de la super�cie de nitruro de galio(100) Heriberto Hernandez Cocoletzi, Cecilia Noguez, R. Es-quivel Sirvent Congreso Nacional de Fısica, Monterrey, oc-tubre 1997.

244. Theoretical and experimental optical spectroscopy studyof hydrogen adsorption on Si(111)-7×7 Cecilia Noguez, M.Roy, C. Beitia, Y. Borensztein, A.I. Shkrebtii and R. Del SoleMarch Meeting (APS National meeting), St. Louis, Missouri,1996.

243. Theoretical study of the optical properties of silicon clus-ters Cecilia Noguez, J. Song, S.E. Ulloa, D.A. Drabold andS.Y. Yang March Meeting (APS National meeting), St. Louis,Missouri, 1996.

242. Theoretical study of the optical properties of silicon clustersCecilia Noguez, J. Song, S.E. Ulloa, D.A. Drabold and S.Y.Yang EPIOPTICS 4, Erice- Sicily, Junio 9 al 14, 1996.

241. Structure and Optical Properties of Silicon Clusters, S.E.Ulloa, Cecilia Noguez, J. Song, and D.A. Drabold Internatio-nal Materials Research Congress: CanCun-96, Symposium15: Computational Materials Science: Theory and Simula-tion, Cancun 2-6 septiembre, 1996.

240. The role of hydrogen as a precusor of the 7 × 7 → 1 ×1 phase transition of Si(111), Cecilia Noguez, S.E. Ulloa yD.A. Drabold, MRS Fall 96 Meeting, Boston Mass. 2-6 dediciembre 1996.

239. Acoustic response of laminated SiC ceramics R. Esquivel-Sirvent and Cecilia NoguezMarch Meeting (APS Nationalmeeting), St. Louis, Missouri, 1996.

238. Structural, electronic and optical properties of hydrogena-ted Si(111)-7×7 surfaces, Dominic Alfonso, Cecilia Noguez,D. A. Drabold y S. E. Ulloa, March Meeting (APS Nationalmeeting), San Jose California, 1995.

237. Elastic wave propagation in quasi-periodic superlattices, H.Guerrero, R. Esquivel-Sirvent, Cecilia Noguez y S. E. Ulloa,March Meeting (APS National meeting), San Jose California,1995.

236. Optical spectroscopy study of hydrogenation of the Si(111)-7×7 surface, M. Roy, Y. Borensztein, A. Shkrebtii, Ceci-lia Noguez y R. Del Sole, ICFSI Conference, Princeton, junio1995.

235. Multipolar E�ects on a Linear Chain of Disorder Polariza-ble Spheres, Cecilia Noguez, Ruben G. Barrera y FranciscoClaro, March Meeting (APS National meeting), San Jose Ca-lifornia, 1995.

234. Theoretical studies of the optical properties of diamondsurfaces, Cecilia Noguez, Dominic Alfonso, S. E. Ulloa y D.A. Drabold, March Meeting (APS National meeting), San JoseCalifornia, 1995.

233. Elastic wave propagation in randomly disordered layeredmedia, R. Esquivel-Sirvent y Cecilia Noguez, 127th Meetingof the Acoustical Society of America, Boston Mass., junio1994.

232. Numerical simulation for the e�ective susceptibility of aone-dimensional disordered chain of polarizable spheres,Cecilia Noguezy Ruben G. Barrera, March Meeting, Seattle,1993.

231. Approach to the calculation of the Si(111)-7×7 optical pro-perties, Cecilia Noguez, A.I. Shkrebtii y R. Del Sole, 18thannual meeting, advances in surface and interface physics,Modena, Italy, diciembre 1993.

230. Funcion dielectrica efectiva de una cadena lineal de es-feras polarizables, Cecilia Noguez, Ruben G. Barrera y Pe-dro Villasenor-Gonzalez, XXXV Congreso Nacional de Fısica,Puebla, Mexico, octubre 1992.

229. E�ective dielectric response of 1D composites, Cecilia No-guez, y Ruben G. Barrera, 38th Scottish Summer School ofPhysics: Physics of Nanostructures, St. Andrews Escocia, ju-lio 1991.

228. The dielectric response of a chain of disordered polarizablespheres: numerical simulation and theory, Cecilia Noguez,Pedro Villasenor-Gonzalez y Ruben G. Barrera, Material Re-search Society Fall Meeting, Boston, diciembre 1991.

227. La respuesta dielectrica efectiva de un compuesto: unanueva aproximacion diagramatica., Cecilia Noguez y RubenG. Barrera, XXXIII Congreso Nacional de Fısica. EnsenadaBaja California, Mexico, octubre 1990.


226. Understanding optical activity in organometallic nanopar-ticles, F. Hidalgo, Cecilia Noguez, 14th International Con-ference of Chiroptical Spectroscopy; Vanderbilt University;Nashville, Tennessee, USA; 9-13 junio 2013

225. Map of the Structural and Optical Properties of Gold Na-noparticles at Thermal Equilibrium, Gonzalez, A.L.; Ceci-lia Noguez; Barnard, A.S., Gordon Conference “Plasmonics:Light-Matter Interaction at the Nanoscale”, Estados Unidosde America, Junio de 2012.

224. Optical Activity in the Ag55SCH3 Compound: Relationshipbetween Circular Dichroism spectra and adsorption site,Francisco Hidalgo, Cecilia Noguez, XXXVII CONGRESO DEQUIMICOS TEORICOS DE EXPRESION LATINA (QUITEL 2011),Diciembre, 2011

223. Catalogo de Colores de Nanopartıculas de Oro en funciondel tamano y temperatura, Ana L. Gonzalez, Amanda Ba-nard, Cecilia Noguez, Poster, 1er Coloquio Fisico Nano 2011,Octubre, 2011

222. The role of ligands in metallic gold clusters, Ariadna San-chez Castillo, Cecilia Noguez, Optics of Surfaces and Inter-faces 9, Septiembre, 2011

221. Electromagnetic Field Enhancement at the Edge of Metal na-nostructures, Ali M Angulo, Cecilia Noguez, Optics of Sur-faces and Interfaces 9, Septiembre, 2011

220. Optical Activity in the Ag55SCH3 Compound: Relationshipbetween Circular Dichroism spectra and adsorption site,Francisco Hidalgo, Cecilia Noguez, Optics of Surfaces andInterfaces 9, Septiembre, 2011

219. Surface Enhanced Raman Scattering at the edge of meta-llic Nanoparticles, Angulo-Martinez, A, Roman-Velazquez, C,Cecilia Noguez, XV International Symposium on Small Clus-ters and Inorganic Clusters, Septiembre, 2010.

218. On the Origin of the Optical Activity Displayed by Chiral-Ligand-Protected Metallic Nanoclusters, Sanchez-Castillo, A,I.L. Garzon, Cecilia Noguez, XV International Symposium onSmall Clusters and Inorganic Clusters, Septiembre, 2010.

217. Optical activity in single-wall carbon nanotubes, Sanchez-Castillo, A, Cecilia Noguez, XV International Symposium onSmall Clusters and Inorganic Clusters, Septiembre, 2010.

216. Plasmonic Metal Nanoparticles, Cecilia Noguez, Gonzalez,A.L, IX Brazilian MRS Meeting 2010, Octubre, 2010.

215. On the origin of optical activity of ligand-protected metalnanoclsters, A. Sanchez-Castillo, Cecilia Noguez, GordonResearch Conference on Noble Metal Nanoparticlesat MountHolyoke College in South Hadley, MA, June 2010

214. Estudio del engrandecimiento extraordinario del campoelectromagnetico en la vecindad de nanopartıculas metali-cas y su importancia en el efecto SERS, Alı M. AnguloMartınez y Cecilia Noguez, LII Congreso Nacional de Fısica,Acapulco Gro., octubre 2009.

213. Electronic Circular Dichroism of Single-Wall Carbon Nanotu-bes, A. Sanchez-Castillo, Cecilia Noguez, XIV InternationalSymposium on Small Particles and Inorganic Clusters, Va-lladolid, Spain September 15-19, 2008.

212. Optical circular dichroism of bare and passivated Au nano-clusters, F. Hidalgo-Moreno, I. L. Garzon, Cecilia Noguez,XIV International Symposium on Small Particles and Inor-ganic Clusters, Valladolid, Spain, September 15-19, 2008.

211. Circular Dichroism of Gold Nanoclusters, F. J. Hidalgo andCecilia Noguez, PASI2007: Panamerican Advanced StudyInstitute, Electronic States and Excitations on Nanostructu-res, Zacatecas, Mexico, june 11 to 22, 2007.

210. First Principle calculations of electronic and optical pro-perties of �ve-fold Ag clusters, Alı M. Angulo and CeciliaNoguez, PASI2007: Panamerican Advanced Study Institute,Electronic States and Excitations on Nanostructures, Zaca-tecas, Mexico, june 11 to 22, 2007.

209. First Principles Calculations of Circular Dichroism in CarbonNanotubes, A. Sanchez-Castillo and Cecilia Noguez, PA-SI2007: Panamerican Advanced Study Institute, ElectronicStates and Excitations on Nanostructures, Zacatecas, Mexi-co, june 11 to 22, 2007.

208. Light extinction of regular shape metal nanoparticles, A.L. Gonzalez and Cecilia Noguez, PASI2007: PanamericanAdvanced Study Institute, Electronic States and Excitationson Nanostructures, Zacatecas, Mexico, june 11 to 22, 2007.

207. Surface Plasmon Resonances of Metal Polyhedral Nanopar-ticles, A. L. Gonzalez y Cecilia Noguez, Nanotech 2006,May 7-11, 2006, in Boston, Massachusetts, U.S.A.

206. Dinamica Molecular de clusters de plata, Alı M. Angulo, Ce-cilia Noguez, Congreso Nacional de Fisica, San Luis Potosı,Mexico, octubre 2006.

205. Tuning surface plasmon on metal nanoparticles, Cecilia No-guez, Gordon Research Conference on Plasmonics, Keene,New Hampshire, July 23 – 28 (2006).

204. Dispersive forces from interacting surface plasmon bet-ween a spheroid and a plane: the role of geometry, CarlosRoman-Velzquez, Cecilia Noguez, ”Seventh Workshop onQuantum Field Theory under the In�uence of External Con-ditions”, IEEC, CSIC and University of Barcelona, Barcelona,Catalonia, Spain, September 5-9, 2005


203. Dependencia geometrica de las resonancias de plasmonde super�cie para nanopartculas de plata de formas poli-edrales, A. L. Gonzalez, y Cecilia Noguez, XLVIII CongresoNacional de Fısica del 17 al 21 de octubre del 2005 en Gua-dalajara, Jal.

202. Circular Dichroism Spectra of Chiral Single-Wall Carbon Na-notubes, A. Sanchez-Castillo, Carlos E. Roman-Velazquez,Cecilia Noguez, L. Meza-Montes, International Conferenceon the Science and Application of Nanotubes July 19–24,2004, San Luis Potosı Mexico.

201. Propiedades opticas de nanopartıculas metalicas esfericas,A. L. Gonzalez, G. P. Ortız, Cecilia Noguez, XLVII Congre-so Nacional de Fısica del 25 al 29 de octubre del 2004,Hermosillo, Son.

200. Anisotropic electronic and optical properties of In nanowi-res on Si(111) X. Lopez-Lozano, F. Bechstedt, J. Furtmueller,A. A. Stekolnikov, Cecilia Noguez, and L. Meza- Montes VIIIEuropean Conference on Surface Crystallography and Dy-namics, Segovia Espana, Julio 2004.

199. Electronic properties of the cleavage InAs(110) surface X.Lopez-Lozano, Cecilia Noguez, L. Meza-Montes Third SanLuis Symposium on Surfaces, Interfaces and Catalysis Meri-da, Venezuela, marzo 31 a abril 4, 2003.

198. Electronic and optical properties of InAs(110) X. Lopez-Lozano, Cecilia Noguez, L. Meza-Montes Pan American Ad-vanced Studies Institute on Physics at the Nanometer Scale,San Carlos de Bariloche, Argentina, 8-18 June, 2003.

197. Optical Properties of Metal Nanoparticles with ArbitraryShapes, Ivan O. Sosa, Cecilia Noguez, and Ruben G. BarreraPan American Advanced Studies Institute on Physics at theNanometer Scale, San Carlos de Bariloche, Argentina, 8-18June, 2003.

196. Dispersive forces at the nanometer scale, Cecilia Noguez,C.E. Roman-Velazquez XII International Materials ResearchCongress, Cancun 17 – 22, 2003.

195. Circular Dichroism of gold nanoclusters C. Roman-Velazquez, Cecilia Noguez, y I.L. Garzon. International Sym-posium of Small Particles and Inorganic Clusters XI, Stras-burgo Francia, Septiembre 2002.

194. Estructura electronica de la super�cie InAs(110) reconstrui-da X. Lopez-Lozano, Cecilia Noguez, y L. Meza-Montes XLVCongreso Nacional de Fısica, Leon Gto., octubre 2002.

193. Casimir forces between a nanoparticle and a substrateC. Roman Velazquez, Cecilia Noguez, C. Villarreal y R.Esquivel-Sirvent Materials Research Society, Fall Meeting,Boston, Diciembre. 2002.

192. Estructura electronica de la super�cie relajada InAs(110) X.Lopez Lozano, Cecilia Noguez, y L. Meza Montes XVI Sim-posio Latinoamericano de Fısica del Estado Solido, Merida,Venezuela, Dic. 2002.

191. Light scattering by suspended nanoparticles Ivan O. Sosa,Cecilia Noguez, R.G. Barrera Materials Research Society, FallMeeting, Boston, Nov. 2001.

190. Light scattering by supported and suspended nanoparticlesIvan O. Sosa, Cecilia Noguez, R.G. Barrera PASI Nanoscienceand technology at the nanometer scale, Costa Rica, Jun.2001

189. Casimir Forces between thermally activated nanocom-posites Raul Esquivel-Sirvent, C. Villarreal, Cecilia No-guezMaterials Research Society, Fall Meeting, Boston, Nov.2001.

188. Spectral representation of the optical response of a sphe-roidal particle on a substrate Carlos E. Roman-Velazquez,Cecilia Noguez, Ruben G. Barrera Workshop on Surface andInterface Optics, 1999 Sainte Maxime, France, 4 – 9 May.

187. Theory of electron energy loss spectroscopy for anisotro-pic systems: application to GaN surfaces Cecilia Noguez,Workshop on Surface and Interface Optics, 1999, Sainte Ma-xime, France, 4 – 9 May.

186. Optical characterization of a spheroidal nanoparticle on asubstrate C.E. Roman-Velazquez, Cecilia Noguez, R.G. Ba-rrera Materials Research Society, Fall Meeting, Boston, Dic.1999.

185. Size dependence of the optical properties of silicon clustersCecilia Noguez, J. Song, S.E. Ulloa, D.A. Drabold and S.Y.Yang Third International Symposium of Nanostructures andMesoscopic systems, Santa Fe, New Mexico, mayo 1996.

184. Optical signature of the GaN(1010) surface Cecilia Noguez,R. Esquivel-Sirvent, D.R. Alfonso, S.E. Ulloa and D.A. Drabold,MRS Fall 96 Meeting, Boston Mass. 2-6 de diciembre 1996.

183. Acoustic signature of defects of SiC/porous SiC laminatedceramics R. Esquivel-Sirvent, Cecilia Noguez, MRS Fall 96Meeting, Boston Mass. 2-6 diciembre, 1996.

182. Microscopic theory of the optical properties of Si(111)-7×7,Cecilia Noguez, A.I. Shkrebtii y R. Del Sole, 22nd Internatio-nal Conference on the Physics of Semiconductors, Vancou-ver, Canada, agosto 14-19, 1994.

181. The disorder e�ects on the e�ective dielectric responseof a linear chain of polarizable spheres, Cecilia NoguezyRuben G. Barrera, Third International Conference on Elec-trical Transport and Optical Properties of InhomogeneousMedia (ETOPIM3), Guanajuato Mexico, agosto 1993.


180. Estudio experimental de las perturbaciones en una pelıculadelgada descendente, Cecilia Noguez y Ramon Peralta-Fabi, XXXII Congreso Nacional de Fısica., Leon Guanajuato,Mexico, octubre 1989.

179. Nueva suma diagramatica para la respuesta dielectrica

efectiva, Cecilia Noguez y Ruben G. Barrera, V EscuelaMexicana de Fısica Estadıstica, Oaxtepec Morelos, Mexico,agosto 1989.

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