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SYMP. TITLE LOCATION
Moscone
West
a.m. p.m. eve. a.m. p.m. eve.*
A Amorphous & Poly-
crystalline Thin-Film Silicon
Science & Technology
Room 3009 Tutorial** Tutorial** A1: Solar Cell—From
Research to Manufacture
A2: Solar Cell—
Nanocrystalline Si
A3: Solar Cells—Light
Trapping
A4: Low-Gap Materials
A5, A6,
A7: Posters
B Silicon Carbide─
Materials, Processing, &
Devices
Room 2004 B1: Bulk Growth
B2: Defects &
Characterization I
B3: Defects &
Characterization II
C Solution Processing of
Inorganic & Hybrid
Materials for Electronics
& Photonics
Room 2006 C1: Nanoparticle
Processing of
Films/Devices I
C2: Nanoparticle
Processing of
Films/Devices II
C3: Solution-processed
Transparent Contacts
C4: Posters
D Plasmonic Materials
& Metamaterials
Room 2008 Tutorial** Tutorial** D1: Plasmon
Nanophotonics I
D2: Photophysics &
Devices
D3: SPP & Photon
Sources I
D4: Enhanced Emission
& Nanoantennas
E Chemical Mechanical
Planarization as a
Semiconductor Technology
Enabler
Room 2000 Tutorial** Tutorial** E1: CMP for Advanced
Technology Nodes
E2: CMP
Consumables I
E3: Posters
F Materials, Processes,
Integration, & Reliability in
Advanced Interconnects
for Micro- &
Nanoelectronics
Room 2010 F1: Copper
Interconnects
F2: Cu Dielectric Interface
F3: Advances in Metal
Thin-Film Deposition
F4: Posters
G Materials & Physics of
Nonvolatile Memories
Room 2011 G1: Nanocrystal
Memory I
G2: Advanced
Flash I
G3: MRAM I
G4: Organic I G5: ReRAM I G6, G7,
G8: Posters
H Phase-Change Materials
for Memory &
Reconfigurable Electronics
Applications
Room 2009 Tutorial** Tutorial** H1: Theory H2: Structure H3: Posters
I Materials for End-of-Road-
map Scaling of CMOS
Devices
Room 2012
J Materials & Devices for
Beyond CMOS Scaling
Room 2012 J1: Materials & Devices
for Beyond CMOS
Scaling I
J2: Materials & Devices
for Beyond CMOS Scaling
II
J3: Posters
K Functional Materials &
Nanostructures for
Chemical & Biochemical
Sensing
Room 2007 K1: Inorganic Nanowires
in Chemical Sensing
K2: Organic Materials in
Chemical Sensing
K3: Inorganic Materials
in Chemical Sensing
K4: Biosensors I
K5: Posters
L Recent Advances & New
Discoveries in High-
Temperature
Superconductivity
Room 2005 L1: Iron-Arsenide
Superconductors I
L2: Iron-Arsenide
Superconductors II
M Structure-Function
Relations at Perovskite
Surfaces & Interfaces
Room 2003 M1: Two-dimensional
Electron Gases in Oxide
Heterostructures I
M2: The Surface
Chemistry of Perovskite
Oxides
M3: Posters
N Functional Oxide
Nanostructures &
Heterostructures
Room 2001 N1: Oxide Nano-
structures &
Heterostructures I
N2: Nanoelectronics I
N3: Oxides for
RF & Microwave
Applications
N4: Magnetic Oxides I
N5: Ferroics &
Multiferroics I
N6: Posters
2010 MRS SPRING MEETING SESSION LOCATOR
MONDAY, APRIL 5 TUESDAY, APRIL 6
*Poster Sessions: Tuesday poster session—Moscone West Exhibit Hall; Wednesday and Thursday poster sessions—Marriott Marquis Hotel
**Refer to Tutorial Schedule Shaded Blocks: No Session
SYMP. TITLE LOCATION
Moscone
West
a.m. p.m. eve. a.m. p.m. eve.*
O Multifunctional
Nanoparticle
Systems─Coupled
Behavior & Applications
Room 2014 Tutorial** O1: Energy
Applications
O2: Optical Probes for
Medical Applications
O3: Posters
P Semiconductor
Nanowires─Growth,
Physics, Devices, &
Applications
Room 2016 P1: Nitride
Nanowires
P2: III-V Nanowire
Growth
P3: III-V Nanowires—
Growth & Devices
P4: Posters
Q Template-Based
Nanofabrication─
Nanowires, Nanotubes, &
Associated
Heteronanostructures
Room 2018 Q1: Assembly for
Nanowire Devices
Q2: Nanowires 1
Q3: Nanowires II Q4: Posters
R Carbon Nanotubes &
Related Low-Dimensional
Materials
Room 2020 R1: Growth Modeling
R2: Nanotube Forest
Growth
R3: In-Situ Growth
Studies
R4: Nanotube Growth
& Properties
R5: Posters
S Graphene Materials
& Devices
Room 2022 S1: Physical
Properties of
Graphene
S2: Mechanical
Properties of
Graphene
S3: Optical Properties
of Graphene
S4: Optical and Electrical
Properties of Graphene
S5: Electrical Properties
of Graphene I
S6: Thermal Properties
of Graphene
T Photovoltaics &
Optoelectronics from
Nanoparticles
Room 2024 T1: Gas-Phase Synthesis
T2: Processing of ZnO &
Related Materials
T3: Optical Properties
T4: Hybrid Photovoltaic
Devices
T5: Posters
U Scanning Probe
Microscopy─Frontiers in
NanoBio Science
Room 3000 U1: Probing
Mechanical Properties
of Biomaterials
U2: Biomolecules & Bio-
assemblies I
U3: Posters
V In Situ Transmission
Electron Microscopy &
Spectroscopy
Room 3003 V1: In-Situ Nanoscale
Deformation
(Room 3006)
V2: In-Situ
Nanoscale Growth
W Diagnostics &
Characterization of
Energy Materials with
Synchrotron & Neutron
Radiation
Room 3004 W1: Solid-Oxide
Fuel Cells & Electronic
Structure of Ceramics
W2: Solid-Oxide
Fuel Cells & Solid-State
Ionics
X Frontiers of
Materials Research
Exhibit Hall X1: Mildred Dresselhaus
(MIT)
Y Computational
Approaches to Materials
for Energy
Room 3006 Y1: Battery &
Fuel-Cell
Materials I
Z Actinides V─Basic Science,
Applications, & Technology
Room 3008 Tutorial** Z1: Actinide Spectroscopy
Z2: Actinide Chemistry I
Z3: Actinide Thin Films
& Surfaces
Z4: Nuclear Fuels
AA Scientific Basis for Nuclear
Waste Management XXXIV
Room 3010 AA1: Repositories
& National Programs
AA2: Spent
Nuclear Fuel
BB Materials for Nuclear
Applications & Extreme
Environments
Room 3012 BB1: Structural
Materials
BB2: Ion-Solid
Interactions & Swift
Heavy Ions
CC Solid-State
Batteries
Room 3011 CC1: Solid-
State Batteries
CC2: 3D
Batteries
2010 MRS SPRING MEETING SESSION LOCATOR
MONDAY, APRIL 5 TUESDAY, APRIL 6
*Poster Sessions: Tuesday poster session—Moscone West Exhibit Hall; Wednesday and Thursday poster sessions—Marriott Marquis Hotel
**Refer to Tutorial Schedule Shaded Blocks: No Session
SYMP. TITLE LOCATION
Moscone
West
a.m. p.m. eve. a.m. p.m. eve.*
DD Thermoelectric
Materials─Growth,
Properties, Novel
Characterization Methods,
& Applications
Room 2002 DD1: Nano-
structures/
Nanocom-
posites/
Nanowires
DD2: Thermo-
electric
Applications
DD3: Bulk Thermo-
electrics—Not Oxides
DD4: Novel Thermo-
electric Materials &
Resonant States
DD5: Posters
EE Defects in Inorganic
Photovoltaic Materials
Room 3007 EE1: Defects in
Oxides & Nitrides
EE2
FF Polymer Materials &
Membranes for Energy
Devices
Room 3005 FF1 FF2
GG Nanoscale Charge Trans-
port in Excitonic Solar Cells
Room 3002 Tutorial** Tutorial** GG1: Small-Molecule OPV
GG2: OPV Imaging
GG3/HH7/II2: Molecular
Engineering
of OPV Materials
(Room 3001)
GG4: Posters
HH Organic Photovoltaic
Science & Technology
Room 3003 HH1: Morphology I
HH2: Industrial
Development of
OPV
HH3: Degradation
Mechanisms &
Reliability
HH4: Materials &
Processes I
Tutorial**
HH5: Excitonic Processes
HH6: Morphology II
HH7/GG3/II2: Mole-
cular Engineering of OPV
Materials
(Room 3001)
II Materials Science & Charge
Transport in Organic
Electronics
Room 3001 Tutorial** II1: Devices I II2/GG3/HH7/:
Molecular Engineering
of OPV Materials
JJ Stretchable Electronics &
Conformal Biointerfaces
Room 2000
KK Micro- & Nanofluidic
Systems for Material
Synthesis, Device
Assembly, & Bioanalysis
Room 3014 KK1: Biological
Applications
KK2: Screening & DNA
KK3: Crystallization &
Phase Diagrams
KK4: Bubbles
LL Directed Assembly & Self
Assembly─From Synthesis
to Device Applications
Room 3016 LL1: Nanopatterning by
Block Copolymers
LL2: Nanopatterning
with Block
Copolymers— Electronic
& Data Storage
Applications
LL3: Posters
MM Evaporative Self
Assembly of Polymers,
Nanoparticles, & DNA
Room 3018 MM1: Far-from-
Equilibrium Assembly
of Materials by
Evaporation I
MM2: Structuring of
Anisotropic Particle
Systems
MM3: Evaporation-
driven Assembly in
Biological Systems
MM4: Posters
NN Materials Exploiting Pep-
tide & Protein Self
Assembly─Toward Design
Rules
Room 3020
OO Hierarchical Self Assembly
of Functional Materials─
From Nanoscopic to
Mesoscopic Length Scales
Room 3020 OO1: Folding, Rolling, &
Wrinkling Structures
OO2: Complex
Particle-based Self
Assembly
OO3: Posters
PP Interfacing Biomolecules
& Functional (Nano)
Materials
Room 3022 PP1: Biointerfaces PP2: Biomaterials PP3: Posters
QQ Biological Materials &
Structures in Physio-
logically Extreme
Conditions & Disease
Room 3024 QQ1: Cell Mechanics
& Cell-Material
Interactions I
QQ2: Cell Mechanics
& Cell-Material Inter-
actions II
2010 MRS SPRING MEETING SESSION LOCATOR
MONDAY, APRIL 5 TUESDAY, APRIL 6
*Poster Sessions: Tuesday poster session—Moscone West Exhibit Hall; Wednesday and Thursday poster sessions—Marriott Marquis Hotel
**Refer to Tutorial Schedule Shaded Blocks: No Session
SYMP. a.m. p.m. eve.* a.m. p.m. eve.* a.m. p.m.
A A8: Novel Devices
A9: Nanostructured
Silicon
A10: Film & Growth
A11: Flexible Electronics
A12: Thin-Film
Transistors & Materials
A13: Characterization
A14: Defects &
Metastability
A15: Carrier Transport
A16, A17, A18,
A19: Posters
A20: Crystalline Si Film
A21: Solar Cell—
Fundamental
B B4: Epitaxial
Growth
B5: Deep-Level Defects
& Carrier Lifetime
B6: Processing
B7: Posters B8: Devices &
Applications
B9: MOS Interface
B10: Graphene & Nano-
Bio
C C5: Solution Processing
of PV Materials
C6: Solution-processed
Metal-Oxide Films
C7: Organic-Inorganic
Hybrid/Sol-Gel/Materials
C8: Posters C9: Printing/
Patterning of Inorganic
Materials I
C10: Printing/
Patterning of Inorganic
Materials II
C11: Posters
D D5: Plasmon
Photovoltaics
D6: SPP & Photon
Sources II
D7: Metamaterials I D8: Posters D9: Nanoparticle
Plasmonics I
D10: Bioplasmonics
& SERS
D11: Posters D12: Super-resolution
D13: Plasmon
Nanophotonics II
D14: Nano-
particle Plasmonics
II
D15: Meta-
materials II
E E4: CMP Con-
sumables II
E5: Novel CMP
Techniques & Devices
F F5: Low-k
Materials
F6: Novel Low-k
Materials
F7: Novel Patterning
Techniques for Low k
F8: Posters F9: 3D Integration/
TSV/Packaging
F10: Emerging
Interconnect
Technologies
G G9: ReRAM II G10: ReRAM III
G11: FeRAM I
G12: Posters G13: FeRAM II G14/H7: Applications II
G15: PCRAM
G16, G17:
Posters
Tutorial** Tutorial**
H H4: Experiment I H5: Experiment II H6: Applications I H7/G14: Applications II
(Room 2011)
I I1: Si MOSFET I2: Novel Devices I3: Ge MOSFET I I4: Ge MOSFET II I5: Posters I6: III-V MOSFET I7: Novel Devices
& III-V MOSFET
J
K K6: Inorganic Materials
for Chemical Sensing
K7: Chemical Sensors
K8: Organic Materials in
Biochemical Sensing I
K9: Organic Materials in
Biological Sensing I
K10: Posters K11: Organic Materials
in Biological Sensing II
K12: Biosensors II
K13: Functional
Materials for
Biochemical Sensing
K14: Functional
Materials for Sensing
L L3: HTS Wires
& Films
L4: Flux Pinning I L5: Characterization of
HTS Materials &
Development of
Templates for Coated
Conductors
L6: Flux Pinning II L7: Posters L8: MgB2, Bi-2212
M M4: Advances in
Electron Microscopy for
Oxide Interfaces
M5: Two-dimensional
Electron Gases in Oxide
Heterostructures II
M6: Interfaces in
Multiferroic Oxides
M7: Defects &
Structure at Oxide
Interfaces
M8: The Effect of
Dimensionality on
Properties of Oxide
Nanostructures
M9: Magnetic
Phenomena
Influenced by Oxide
Interfaces
N N7: Oxides for Energy
Technologies—
Transport
N8: Oxides for Energy
Technologies—
Nanostructures
N9: Nanoelectronics II
N10: Nanostructured
Oxide Synthesis &
Characterization I
N11: Posters N12: Ferroics &
Multiferroics II
N13: Magnetic
Oxides II
N14: Oxides for Energy
Technologies—Films &
Heterostructures
N15: Oxides for Energy
Technologies—
Thermodynamics
& Photochemistry
N16: Posters N17: Oxide Nano-
structures &
Heterostructures II
N18: Ferroics &
Multiferroics III
N19: Nanostruc-
tured Oxide
Synthesis &
Characterization II
N20: Functional
Oxide Synthesis &
Characterization
2010 MRS SPRING MEETING SESSION LOCATOR
WEDNESDAY, APRIL 7 THURSDAY, APRIL 8 FRIDAY, APRIL 9
SYMP. a.m. p.m. eve.* a.m. p.m. eve.* a.m. p.m.
O O4: Fundamentals
for Medical Applications
O5: Magnetic
Nanoparticles for
Medical Applications
O6: Posters O7: Medical
Applications
O8: Multifunctional
Polymers
O9: Multifunctional
Oxides
O10: Coupled
Behaviors & Other
Multi-
functional
Nanoparticle
Systems
P P5: Growth of Si & Ge
Nanowires I
P6: Si & Ge Nanowire
Devices I
P7: Growth of Si & Ge
Nanowires II
P8: Si & Ge Nanowire
Devices II
P9: Nanowires—
Mechanical & Thermal
Properties
P10: Nanowire
Characterization
P11: Nanowires—
Thermal & Optical
Properties
P12: Nanowire Solar
Cells
P13: Posters P14: Nanowire Appli-
cations—Solar Cells
& Sensing
P15: ZnO Nanowires I
P16: ZnO Nano-
wires II
P17: Nanowires—
Properties &
Applications
Q Q5: Nanotemplates Q6: Atomic Layer
Deposition
Q7, Q8:
Posters
Q9: Fabrication Through
Inorganic Templates
Q10: Fabrication
Through Organic
Templates
Q11: Posters Q12: Inorganic Nanotubes
Q13: Fabrication Through
Block Copolymer
Templates
Q14: Templated
Top-down Nano-
fabrications
R R6: Transistors from
Aligned Nanotubes
R7: Solution-
processed Devices
R8: Growth for Electronic
& Thermal Applications
R9: Water Scale Growth
& Applications
R10: Posters R11: Separation of
Nanotubes
R12: Optical Properties
of Nanotubes
R13: Nanotube Devices
& Field Emission
R14: Thin-Film Devices I
R15: Nanotube Devices
R16: Thin-Film Devices II
S S7: Electrical Properties
of Graphene II
S8: Electrical Properties
of Graphene III
S9: Electrical Properties
of Graphene IV
S10: Chemistry of
Graphene
S11: Synthesis of
Graphene (SIC)
S12: Synthesis of
Graphene (Exfoliation)
S13: TEM Anaylsis of
Graphene
S14: Posters S15: Graphene Materials
and Devices
S16: Synthesis/
Applications of Graphene
(GO)
S17: Synthesis/
Applications of
Graphene
(Composite)
S18: Nano-
machining of
Graphene
(Exfoliated)
T T6: Assembly &
Functionalization
T7: Printing & Related
Deposition Methods
T8: Optoelectronic
Properties
T9: Electroluminescent
Devices
T10: Posters T11: Synthesis &
Structure
T12: Transport
Properties
T13: Composite
Photovoltaic Devices
T14: Photovoltaic
Devices
U U4: Electronic Beha-
vior of Inorganic,
Molecular, &
Biological Systems
U5: Biomolecules
& Bio-assemblies II
U6: SPM
Instrumentation
U7: Single-
molecule SPM
V V3: TEM Imaging in
Liquid Environment
V4: In-Situ Nanoscale
Transport
V5: Posters
W W3: H₂ Storage &
Hydrogen in Solids I
W4: H₂ Storage &
Hydrogen in Solids II
W5: PEM Fuel Cells &
Electrocatalysis
W6: Posters W7: Batteries &
Photosynthesis
W8: Solar Cells W9: Catalysis W10: Porous
Media &
Disordered Systems
X X2: Paul Denholm
(NREL)
X3: Randy Kirchain
(MIT)
Y Y2: Battery & Fuel-
Cell Materials II
Y3: Electrical &
Chemical Energy Storage
Materials
Y4: Catalytic
Materials for Energy
Y5: Photovoltaic
Materials—Organic
& Thin Film
Y6: Posters Y7: Nuclear Energy
Materials
Y8: Thermal Transport in
Energy Materials
Y9: Nanostructures
& Surfaces for
Energy Conversion
Z Z5: Chemistry of
Nuclear Fuels
Z6: Actinide Chemistry II
Z7/AA5: Actinide
Chemistry
Z8: Actinide
Metallurgy
Z9: Electronic Structure
Z10: Physical Properties
of Actinides
Z11: Posters Z12: Properties of
Actinide Superconductors
Z13: Actindes &
Magnetism
AA AA3: Glass Waste Forms
AA4: Cementitous Waste
Forms
AA5/Z7: Actinide
Chemistry
(Room 3008)
AA6: Posters AA7: Ceramic
Waste Forms
AA8/BB7: Radiation
Effects in Waste Forms
& Ceramics
AA9: Solubility
of Nuclear Material
BB BB3: Surfaces,
Interfaces &
Nanomaterials
BB4: Nuclear
Fuels
BB5: Posters BB6: Theory, Modeling,
& Simulation
BB7/AA8: Radiation
Effects in Waste Forms
& Ceramics
(Room 3010)
CC CC3: Nanostruc-
tured Materials
CC4: Cathode &
Anode Materials
CC5: Posters CC6: Li-Ion Battery
Materials
2010 MRS SPRING MEETING SESSION LOCATOR
WEDNESDAY, APRIL 7 THURSDAY, APRIL 8 FRIDAY, APRIL 9
SYMP. a.m. p.m. eve.* a.m. p.m. eve.* a.m. p.m.
DD DD6: Thermoelectrics
Nano Bulk I
DD7: Thermoelectrics
Nano Bulk II
DD8: Superlattices,
Nanowires, Nano-
particles I
DD9: Superlattices,
Nanowires, Nano-
particles II
DD10: Posters DD11: Thermoelectric
Oxides
DD12: Thermo-
electric
Measurement
Methods
EE EE3 EE4 EE5: Posters EE6 EE7
FF FF3 FF4 FF5: Posters FF6
GG GG5: DSSC I/Hybrid Solar
Cells
GG6/HH8/II4: Advan-
cing Org. P'voltaics I
(Room 3001)
GG7/HH9/II5:
Advancing Organic
Photovoltaics II
(Room 3001)
GG8: Carrier Dynamics
GG9: Novel Structures
GG10: Charge
Transport
GG11: DSSC II
HH HH8/GG6/II4: Advancing
Organic Photovoltaics I
(Room 3001)
HH9/GG7/II5:
Advancing Organic
Photovoltaics II
(Room 3001)
HH10:
Posters
HH11: Charge Transport
& Photophysics I
HH12: Charge Transport
& Photophysics II
HH13: Materials &
Processes II
HH14: Posters HH15: Oxide Interfaces
HH16: Electrode
Engineering
HH17: Device
Physics & Modeling
HH18: Materials &
Processes III
II II3: Materials &
Patterning
II4/GG6/HH8: Advancing
Organic Photovoltaics I
II5/GG7/HH9:
Advancing Organic
Photovoltaics II
II6: Posters II7: Devices II I8: Charge
Transport
II9: Posters II10: Conjugated
Polymers
II11: Interfaces &
Morphology
JJ JJ1: Stretchable
Bioelectrodes
JJ2: Electrode-Tissue
Interfaces
JJ3: Soft Actuators
JJ4: Soft Transducers
JJ5: Posters JJ6: Ultracompliant
Electronic Devices
JJ7: Stretchable
Electrodes
JJ8: Stretchable
Circuits
JJ9: Mechanical
Design
KK KK5: Electric Field-
Controlled Flow
KK6: Particle Assembly &
Nanofluidics
KK7: Flow Droplets &
Diffusion
KK8: Synthesis—
Particles & Membranes
KK9: Posters KK10: Devices &
Materials Fabrication
KK11: Particle Synthesis
LL LL4: Directed Assembly
& Self Assembly for Clean
Energy Applications
LL5: Directed Assem-
bly. Self Assem. of
N'particles & N'wires
LL6/OO6: Biomimetic &
Hybrid Materials
(Room 3020)
LL7: Novel Assembly
Methods, Structures, &
Properties I
LL8: Directed
Assembly & Self
Assembly—
Simulation & Modeling
LL9: Posters LL10: Novel
Assembly Methods,
Structures, & Properties II
LL11: Novel
Assembly Methods,
Structures, &
Properties III
MM MM5: Assembling
Nanomaterials
by Surface Patterning
MM6: Evaporation-
induced Assembly in
Polymeric
Nanostructures I
MM7: Controlled Evap.
Assembly of Polymers &
Nanocrystals in Confined
Geometries
MM8: Far-from-Equili-
brium Assembly of
Materials by Evaporation
II
MM9: Evaporation-
induced Assembly in
Polymeric
Nanostructures II
NN NN1: Peptide
Amphiphile &
Conjugate—Self
Assembly & Applications
NN2: Peptide
Self Assembly &
Applications I
NN3: Posters NN4: Protein
Self Assembly &
Applications I
NN5: Peptide
Self Assembly &
Applications II
OO OO4: Biomaterials
for Engineering—
DNA, Peptide, & Phage-
based Self Assembly I
OO5: Biomaterials for
Engineering—
DNA, Peptide, & Phage-
based Self Assembly II
OO6LL/6: Biomimetic &
Hybrid Materials
PP PP4: Bioinspired PP5: Bio/Nano PP6: Posters PP7: Dynamic
Systems
PP8: Biofunctionalized
Nanoparticles
PP9: Posters
QQ QQ3: Cell Mechanics &
Human Disease
QQ4: Ectopic
Materials in the Context
of Prion & Amyloid
Diseases
QQ5: Posters QQ6: Nanomechanics
of Biological Molecules
& Structures
QQ7: Structural
Materials & Tissues I
QQ8: Structural
Materials & Tissues II
QQ9: Multiscale
Soft-Tissue Mechanics
2010 MRS SPRING MEETING SESSION LOCATOR
WEDNESDAY, APRIL 7 THURSDAY, APRIL 8 FRIDAY, APRIL 9