73 Recent Publications in the area of OrganicConductors and Related Phenomena Compiling Editor Alfred J. Hodina May and June 1983 Nos. 11 & 12 CONTENTS A. General organic conductors B. (CH)x (polyacetylene and derivatives) C. TTF (tetrathiafulvalene and related compounds) D. TCNQ (tetracyanoquinodimethane and related compounds) E. TMSF (tetramethyltetraselenafulvalene and related compounds) F. Miscellaneous charge transfer salts and complexes G. One-dimensional systems H. NbSe3, TaS3 (niobium triselenide, tantalum trisulphide and related compounds) I. Charge and spin density wave dynamics J. Graphite intercalation compounds K. Other related intercalation and layered compounds
Transcript
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Recent Publications in the area of Organic Conductors and
Related Phenomena Compiling Editor Alfred J. Hodina
May and June 1983 Nos. 11 & 12
CONTENTS
A. General organic conductors
B. (CH)x (polyacetylene and derivatives)
C. TTF (tetrathiafulvalene and related compounds)
D. TCNQ (tetracyanoquinodimethane and related compounds)
E. TMSF (tetramethyltetraselenafulvalene and related compounds)
F. Miscellaneous charge transfer salts and complexes
G. One-dimensional systems
H. NbSe3, TaS3 (niobium triselenide, tantalum trisulphide
and related compounds)
I. Charge and spin density wave dynamics
J. Graphite intercalation compounds
K. Other related intercalation and layered compounds
74 Organic Conductors and Related Phenomena, May 1983, No. 11
A. General organic conductors
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Electrical conduction in polymers. (a review~th many references). Seanor, D.A. (Joseph C. Wilson Cent. Technol., Xerox Corp., Rochester, NY USA). Electr. Prop. Polym. p.I-58 (1982) Edited by Seanor, D.A. Academic: New York, N.Y.
Electrical conductivity of heteroaromatic ladder polymers. Kim, O.K. (Nav. Res. Lab., Dep. Navy, Washington, DC 20375 USA). J. Polym. Sci., Polym. Lett. Ed. v.20(12) p.663-6 (1982)
Electrically conducting polymers and their use in electrical engineering and for antistatic finishing of plastics. Naarmann, H., Penzien, K., SchlaR, J., Simak, P. (RASF A.-G.) Ger. Offen. DF 3,118,630 Ii pp. (25 Nov. 1982)
Organic superconductors. (German) Bechgaard, K., Jerome, D. Spektrum Wiss. (no.9) p.38-51 (Sep. 1982) Also published in Mol. Cryst. Liq. Cryst. v. 79(I~4) p.155-182
Overview of organic conductors - s~theses, conductivities, and appli- cations. (a review with 77 references). (Japanese) Shirota, Y., Mikawa, H. (Fac. Eng., Osaka Univ., Suita, Japan). Kagaku to Kogyo v.56(9) p.327-38 (1982)
Poly(p-phenylene selenide): structure control in a precursor to a conducting polymer. Sandman, D.J., Rubner, M., Samuelson, L. (GTE Lab., Inc., Waltham, MA 02254 USA). J. Chem. Soc., Chem. Con~nun. (19) p.I133-4 (1982)
B. (CH)x (polyacety]ene and derivatives)
i. Change of morphology of polyacetylene obtained by change of the solvent used for the Ti(n-C4H90)4-AI(C2Hs) 3 catalyst system. Wang, F., Zhao, X., Gong, Z., Cao, Y., Yang, Q., Qian, R. (Inst. Appl. Chem., Acad. Sin., Changchun, Peop. Rep. China). Makromol. Chem., Rapid Convnun. v.3(12) p.929-32 (1982)
2. Charge carrier generation, transport, and trapping in a photoconduc- tive conjugated polymer: polyphenylacetylene. Kang, E.T., Ehrlich, P., Bhatt, A.P., Anderson, W.A. (Dep. Chem. Eng., State Univ. New York, Buffalo, NY 14260 USA). Appl. Phys. Lett. v.41(12) p.i136-8 (1982)
3. Effect of interchain interaction on self-localized states in a Peierls model. (calculations were made for polyacetylene). (Russian) Seidel, K., Prigodin, V.N. (Inst. Chem. Polym., Ger. Acad. Sci., Teltow, Ger. Dem. Rep.). Fiz. Tverd. Tela v.24(12) p.3642-7 (1982)
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4. Electronic structure and electron stransport in polydiacetylenes. Wilson, E.G. (Phys. Dept. Oueen Mary Coll., London, England). Phys. Scr. v.Tl p.88 (1982) (2nd General Conference of the Condensed Matter Division of theEuropean Physical Society, Man- chester, England, 22-25 March 1982).
5. Energy levels of ionized states in a polydiacetylene crystal (PTS) studied by photoemission. ~rashov, A.A., Silinsh, E.A., Baessler, H. (Inst. Phys. Energet., 226006 Riga, USSR). Chem. Phys. Lett. v. 93(2) p.148-50 (1982)
6. ESR studies of TRANS-(CH)y during photoexcitation. Flood, J.D., Ehrenfreund, F., Heeg~r, A.J., ~lacDiarmid, A.G. (Lab. For Res. on the Structure of Matter, Univ. of Pennsylvania, Philadelphia, PA, USA). Solid State Co~m~m. v.44(7) p. I055-8 (Nov. 1982)
7. Franck-Condon approach for optical absorption and resonance Raman scat- tering in trans-polyacetylene. Kuzmany, H., Imhoff, E.A., Fitchen, D.B., Sarhangi, A. (Dep. Phys., Cornell Univ., Ithaca, NY 14853 USA). Phys. Rev. B: Condens. Matter v.26(12) p.7109-12 (1982)
8. Hot luminescence in polyacetylene. Mele, E.J. (Dep. Phys., Univ Pennsylvania, Philadelphia, PA 19104-3859 USA). Solid State Cor~nun. v.44(6) p.827-31 (1982)
9. Infra-red transmission of highly iodine-doped poly-acetylene films. Palpacuer, M., Bernard, O., Deloupy, C. (Lab. d'Infrarouge, Univ. Sci. Tech. Languedoc, Montpellier, France), Rolland, M., Abadie, M.J.M. Polymer v.23(12) p.1847-50 (Nov. 1982)
i0. Interchain contributions to soliton properties in polyacetylene. Baughman, R.H., ~oss, G. (Corp. Res. Cent., Allied Corp., Morris- town, NJ 07960 USA). J. Chem. Phys. v. 77(12) p.6321-36 (1982)
II. Investigations on electric properties of polymers. X. Dielectric relaxation in polyphenylacetylenes studied by thermally stimu- lated depolarization currents. Diaconu, I., Dumitrescu, S. ('P. Poni' Inst. of Macromolecular Chem., Jassy, N~mania). J. Macromol. Sci. - Phys. v.B21(4) p.555-63 (1982)
12. Light scattering and absorption in polyacetylene. Etemad, S., Heeger, A.J. (Dept. of Phys., Univ. of Pennsylvania, Philadelphia, PA, USA). Nonlinear Problems: Present and Future. Proceedings of the First Los Alamos Conference on Nonlinear Problems, Los Alamos, h~1, USA, 2-6 March 1981 (Amsterdam, Netherlands: North-Holland 1982), p.209-27
14. Magnetic-resonance studies in undoped trans-polyacetylene (CH)x. II. Nechtschein, M., Devreux, F., Genoud, F., Guglielmi, M., Holczer, K. (Dep. Rech. Fond., Cent. Etud. Nucl., F-38041 Grenoble, Fr.). Phys. Rev. B: Condens. Matter v.27(I) p.61-78 (1983)
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15. Moessbauer spectroscopy studies of polyacetylene doped with iron chloride complexes. Pron, A., Zagorska, M., Kucharski, Z., Lukasiak, M., Suwalski, J. (Dept. Chem., Tech. Univ. Warsaw, 00-664 Warsaw, Pol.). Mater. Res. Bull. v.17(12) p.1505-I0 (1982)
16. Polarons in polyacetylene. Bishop, A.R., Campbell, D.K. (Los Alamos Nat. Lab., Los Alamos, ~I, USA). Nonlinear Problems: Present and Future. Proceedings of the First Los Alamos Con#erence on Nonlinear Problems, Los Alamos, b~l, USA, 2-6 March 1981 (Amsterdam, Netherlands: North-Holland 1982), p.195-208
17. Polyacetylene, (CH)x: the prototype conducting polymer. (a review with 79 references). Etemad, S., Heeger, A.J., MacDiarmid, A.G. (DeD. Phys., Univ. Pennsylvania, Philadelphia, PA 19104 USA). Annu. Rev. Phys. Chem. v.33 p.443-69 (1982)
18. Properties of polyacetylene doped with iodine atoms, bromine atoms, iridium hexachloride, and iron trichloride. Sichel, E.K., Rubner, M.F., Tripathy, S.i. (GTE Lab., Inc., Waltham, MA 02254 USA). Phys. Rev. B: Condens. ~latter v.26(12) p.6719-26 (1982)
19. The reaction of HF with polyacetylene. McOuillan, B., Street, G.B., Clarke, T.C. (IBM Res. Lab., San Jose, CA, USA). J. Electron. b~ter, v.ll(3) p.471-90 (b~y 1982)
20. Spin dynamics in trans-polyacetylene. Shiren, N.S., Tomkiewicz, Y., Kazyaka, T.G., Taranko, A.R., Thomann, H., Dalton, L., Clarke, T.C. (II~M Res. Cent., Yorktown Heights, NY 10598 USA). Solid State Co~mun. v.44(8) p. I157-60 (1982)
21. Theoretically predicted Drude absorption by a conducting charged soli- ton in doped-polyacetylene. Rice, M.J. (Xerox Webster Res. Center, Webster, NY, USA). Nonlinear Problems: Present and Future. Proceedings of the First Los Alamos Conference on Nonlinear Problems, Los Mamos, h~1, USA, 2-6 M~rch 1981 (Amsterdam, Netherlands: North-Holland 1982), p.189-93
22. Transient structural response to photoexcitation in polyacetylene. Mele, E.J. (Dep. Phys., Univ. Pennsylvania, Philadelphia, PA 19104-3859 USA). Phys. Rev. B: Condens. Matter v. 26(12) p.6901-8 (1982)
23. Urethane substituted polydiacetylene: synthesis and characterization of poly(4,6-decadiyne-l,10-diol bis(n-butoxycarbonylmethylurethane)). Kazunori, S., Ohnuma, H., Kotaka, T. (Fac. Sci., Osaka Univ., Toyonaka, Japan 560). Polym. J. v.14(ll) p.895-905 (1982)
24. Xd approach for the determination of electronic and geometric structure of polyacetylene and other chain polymers. Mintmire, J.W., White, C.T. (Nay. Res. Lab., Washington, DC 20375 USA). Phys. Rev. Lett. v.50(2) p.101-4 (1983)
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TrF (tetrathiafulvalene and related compounds)
Crystal structure of a new type of two-dimensional organic metal, (CIoH8S8)2(CIO4)(C2H3CI3)0 5- (bis(ethylenedithiolato)tetratbiafulva- lenlum perchlorate). Koba#ashi, H., Kobayashi, A., Saito, G., Enoki, T., Inokuchi, H. (Fac. Sci., Toho Univ., Funabashi, Japan 274). J. Am. Chem. Soc. v. I05(2) p.297-8 (1983)
Design and synthesis of new orpanic conductors and organic superconduc- tors. (an ongoing study on a bis(ethylenedithiolo)tetrathiafulvalene perchlorate-l,l,2-trichloroethylene adduct is described). (Japanese) Saito, G. (Btmshikeu, Japan). Busseiken Dayori v.22(2) p.28-30 (1982)
Elements of the crystal structure of a solvated I:i charge-transfer salt derived from tetrathiafulvalene (TTF) and tetrafluorotetracyano-p- quinodimethane (TC~OF4), ~FF-TCNOF4. Wiygul, F.M., Emge, T.J., Kistenmacher, T.J. (Dep. Chem., Johns Hopkins Univ., Baltimore, MD 21218 USA). Mol. Cryst. Lia. Cryst. v.90(I-2) p.163-71 (1982)
IH-N~ relaxation measurements in the organic conductors: (TMTTF)2Br and (TMTrF)2PF ~. Creuzet, F., Takahashi, T., Jerome, D. (Lab. de Phys. des Soliaes, Univ. Paris-Sud, Orsay, France). J. Phys. Lett. v.43(21) p. L755-61 (i Nov. 1982)
The structure of octamethylene-3,4;3',4'tetrathia-2,2',5,5'fulvalene- tetracyano-7,7,8,8 p-quinodimethane (CIMTTF-TCNO). (French) Chasseau, D., Gaultier, J. (Bordeaux-i Univ., 33 - Talence (France). Lab. de Cristallographie), Fabre, J.M., Giral, L. ~1ontpelliero2 Univ., 34 (France). Lab. de Chimie Organique Structurale). Acta Crystallogr., Sect. B v.38(pt.5) p.1632-1635 (15 May 1982)
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TCNQ (tetracyanoquinodimethane and related compounds)
Crystal and molecular structure and ESR spectra of the I:i salt 5-(l- butyl) phenaz iniun (NBP) - 2,2' - (2,3,5,6- tet rafluoro- 2,5- cyclohexadiene- 1,4-diylidene)-bispropanedinitrile (TCNQF4). Metzger, R.M., Heimer, N.E., Gundel, D., Sixl, H., Harms, R.H., Keller, H.J., Noethe, D., Wehe, D. (Dep. Chem., Univ. Mississippi, University, MS 38677 USA). J. Chem. Phys. v.77(12) p.6203-14 (1982)
Crystal and molecular structures of the charge-transfer complex 7,7,8,8- tetracyanoquinodimethanestillbene (TCNQ-S). Mitkevich, V.V. (Physi- cotechnical Institute of Low Temperatures of the Academy of Sciences of the Ukrainian SSR). Soy. Phys. Crystallo~r. v.27(3) p.365-367 0~ay 1982)
Crystal structure of the 2:1 charge-transfer salt derived from hexa- methylenetetraselenafulvalene (I~ITSF) and 7,7,8,8-tetracyano-p- quinodimethane (TCNQ), (HqTSF) 2 (TCNQ). Emge, T.J., Bryden, W.A., Cowan, D.O., Kistenmacher, T.J. (Dep. Chem., Johns Hopkins Univ., Baltimore, MD 21218 USA). Mol. Cryst. Liq. Cryst. v.90(1-2) p.173-84 (1982)
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Effect of polycation structure on electric conductivity of polymeric ion-radical salts of 7,7,8,8-tetracyanoquinodimethane and aliphatic ionenes. (Russian) Kotov, B.V., Berendyaev, V.I., ~stovoi, R.M., Pravednikov, A.N. (Fiz.-Khim. Inst. im. Karpova, Moscow, USSR). Dokl. Akad. Nauk SSSR v.265(3) p.657-60 (1982)
Localization of electrons near the band edge and the dielectric permit- tivity of TCN0 salts with strong structural disorder. (~ussian) Gogolin, A.A. (Inst. Teor. Fiz. im. Landau, Chernogolovka, USSR). Zh. Eksp. Teor. Fiz. v.83(6) p.2260-72 (1982)
NMR study of transport DroDerties in pure and irradiated Qn TCNQ2. DevTeux, F., Holczer, K., Nechtschein, M., Minier, M. (Dep. Rech. Fondam., Cent. Etud. Nucl. Grenoble, 38041 Grenoble, Fr.). J. Phys. v.44(I) p.33-8 (1983)
Pinning of the fluctuating conductivity by 2d coupling in TSF-TCNQ. Thomas, J.F. ([hiversite Libre de Bruxelles (Belgium). Physique des Solides). Phys. Lett., A v.89(6) p.303-304 (24 May 1982)
Structure of bis(5-propylphenazinium)-tris(2,2'-(2,5-cyclohexadiene- 1,4-diylidene)bis(propanedinitrile)), (NPP)2(TCNQ) 3. Harms, R., Keller, H.J., Noethe, D., Wehe, D. (Anorg. Chem. Inst., Univ. Heide!berg, D-6900 Heidelberg, 1 Fed. Rep. Ger.). Acta Crystallogr., Sect. B v. B38(ll) p.2838-41 (i982)
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TMTSF (tetramethyltetraselenafulvalene and related compoundsJ_
Band-structure parameters of a series of tetramethyltetraselenafulvalene ((TMTSF)2X) compounds. Grant, P.M. (Res. Lab., IBM, San Jose, CA 95193 USA). Phys. Rev. B: Condens. Matter v.26(12) p.6888-95 (1982)
Organic superconductors: the (TMTSF)2X family. (a review with 102 references). Friedel, J., Jerome~ D. (Lab. Phys. Solides, Univ. Paris Sud, 91405 Orsay, Fr.). Contemp. Phys. v.23(6) D.583-624 (1982)
Spin-density-wave and superconducting states in thermally quenched bis(tetramethyltetraselenafulvaleni~n) perchlorate. Kajimura, K., Tokumoto, H., Tokumoto, M., Murata, K., Ukachi, T., Anzai, H., Ishiguro, T., Saito, G. (Electrotech. Lab., Ibaraki, Japan 305). Solid State Commun. v.44(12) p.1573-6 (1982
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Miscellaneous charge transfer salts and complexes
Group theoretical analysis of the structural phase transition sequence in the quasi-one-dimensional compound trimethyla~aonium cadmium trichloride. Zuni~a, F.J., Chapuis, G., ~nes, J.L., Perez-Mato, J.M., Tello, M.J. (Inst. Cristallogr., Univ. Lausanne, 1015 Lausanne, Switz.). J. Phys. C v.15(25) p.5195-201 (1982)
Influence of the excitation energ~y on the surface potential decay in a polymer system doped with charge transfer complexes. (the photo~ elec. charge transport and photogeneration were studied in the solid soln. of T~CE in Doly(bisphenol-A-carbonate) (PC) doped with N-vinylcarbazole.). Kryszewski, M., Wojciechowski, P. (Inst. Polym., Tech. Univ. Lodz, 90-924 Lodz, Pol.). Acta Phys. Pol. A v.A62(3-4) p.239-48 (1982)
Influence of the trapping effects on the surface potential decay in polymer systems doped with charge-transfer complexes. (the trapping effect on the photoelec, charge transport and photogeneration was studied in the solid solns, of T~E, 2,3,5-trimethylphenol, pyrene and poly(bisphenol-A-carbonate). Wojciechowski, P., Kryszewski, M. (Inst. Polym., Tech. Univ. Lodz, 90-924 Lodz, Pol.). Acta Phys. Pel. A v.A62(3-4) p.229-37 (1982)
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One-dimensional systems
Effect of defects on the Debye-Waller factor in nonideal quasi-one- dimensional and quasi-two-di~ensional crystals. (Russian) Krivoglaz, M.A. (Inst. Metal]ofiz, Moscow, USSR). Kristallografiya v.27(6) p. I056-62 (1982)
Kinks in a quasi-one-dimensional system with a nearly i/3-filled band. Mertsching, J. (Zentralinst. fur Elektronenphys., Akad. der Wissenschaften, Berlin, Germany). Phys. Status Solidi b v.I13(2) p.609-21 (I Oct. 1982)
Kinks of fractional charge in quasi-one-dimensional systems. Schrieffer, J.R. (Dept. of Phys., Univ. of California, Santa Barbara, CA, USA). Nonlinear Problems: Present and Future. Proceedings of the First Los Alamos Conference on Nonlinear Problems, Los Alamos, NM, USA, 2-6 March 1981 (Amsterdam, Netherlands: North-Holland 1982), p.179-87.
Neutron scattering on solitons in quasi-one-dimensional systems. (pub- lished in summary form only). Fedymlin, V.K. (Joint Inst. for Nuclear Research, Dubna (USSR)). p.PB-3 Yamada conference VI on neutron scattering of condensed matter. Scientific program and abstracts. Yamada Conference on Neutron Scattering of Condensed Matter. Hakone (Japan). Sep. 01-04, 1982.
Observing solitons in one dimensional magnetic systems. Reiter, G. (Brookhaven Nat. Lab., Upton, NY, USA). AIP Conf. Prec. (89) p.288-95 (1982). (Symposium on Neutron Scattering, Argonne, IL, USA, 12-14 Au~. 1981).
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Ouasi-one-dimensional systems and localized defects: some results of the Green's matrix formalism. Seel, M., Del Re, G., Ladik, J. (Friedrich-Alexander-Univ. Erlangen-Nuernberg, D-8520 Erlangen, Fed. Rep. Get.). J. Comput. Chem. v.3(4) p.451-67 (1982)
Solitons in a one-dimensional Lennard-Jones lattice. Ishimori, Y. (Dept. of Appl. Math. & Phys., Kyoto Univ., Kyoto, Japan). Prog. Theor. Phys. v. 68(2) p.402-i0 (Aug. 1982)
Synthesis and properties of a new kind of one-dimensional conductors. 25. Extended theckel calculations on the energy band structure of CN- and N-bridged cobalt(III) phthalocyanine. Seelig, F.F. (Inst. Phys. Theor. Chem., Univ. Tuebingen, D-7400 Tuebingen, Fed. Rep. Get.). Z. Naturforsch., A v.37A(10) p. I158-64 (1982)
Ten years of x-ray diffuse scattering studies of one-dimensional con- ductors and superconductors. (a review with 34 references). Comes, R. (Lab. Phys. Solides, Univ. Paris Sud, 91405 Orsay, Fr.). Phys. Scr. v.Tl p.46-8 (1982)
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NbSe3, TaS 3 (niobium triselenide, tantalum trisulphide and related compounds)
Anomalous flux entry into NbSe 2. Denhoff, M.W., Gygax, S. (Department of Physics, Simon Fraser University, Burnaby, British Columbia, Canada VSA IS6). Phys. Rev. B v.25(7) p.4479-4487 (01 Apr. 1982)
Charge-density-wave conductivity in niobium selenide (NbSe3). Ido, M. (Dep. Phys., Hokkaido Univ., Sapporo, Japan 060). Solid State Co, n~n. v. 44(12) p.1535-8 (1982)
Oda, M. ,
Concerning the disccmnensurate character of NbSe~. Wilson, J.A. (H.H. Wills Phys. Lab., Univ. of Bristol, Bristol,-England). J. Phys. F v.12(ll) p.2469-82 [Nov. 1982).
Electrical conduction and critical magnetic field for superconductivity of a niobium selenide (N~o3Se4) single crystal. Ishihara, Y., Nakada, I. (Fac. Sci., Kanazawa Univ., Kanazawa, Japan). Solid State Cow, nun. v.44(I0) p.1439-42 (1982)
Electronic properties of niobium selenide (NbSe3). Danino, M., Weger, M. (Dep. Phys., Bar-Ilan Univ., Ramat Gan, Israel). Phys. Rev. B: Condens. Matter v.26(12) p.7035-8 (1982)
Evidence for extrinsic superconductivity in niobium. . selenide (NbSe3) • Kawabata, K., Ido, M. (Dep. Phys., Hokkaldo Unlv., Sapporo, Japan 060). Sol id State Can~nun. v.44(12) p.1539-42 (1982)
Spectral purity and phase coherence of narrow-band noise in niobium selenide (NbSe3). Weber, M., Gruener, G., Clark, W.G. (Racah Inst. Phys., Hebrew Univ., Jerusalem, Israel). Solid State Conraun. v.44(8) p. I179-82 (1982)
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Charge and spin density wave dynamics
Frustration, fractional charge, and soliton mobilities: the effect of interchain coupling on solitons in charge-density waves. Kivelson, S. (Inst. Theor. Phys., Univ. California, Santa Barbara, CA 93106 USA) Phys. Rev. B: Condens. Matter v.26(12) p.7093-6 (1982)
Impurity and fluctuation effects in charge-density-wave superconductors. Grest, G.S.(The Department of Physics, Purdue University, West Lafayette, Indiana 47907), Levin, K., Nass, M.J. (The James Franck Institute and the Department of Physics, The University of Chicago, Chicago, Illinois 60637 USA). Phys. Rev. B v.25(7) p.4562-4569 (01 Apr. 1982)
Impurity ionization by solitons in a superlattice. Epshtein, E.M. Radiophys. & Quantum Electron. p.l-3 Translation of: Izv. VUZ Radiofiz. v.25(I) p.3-5 (Jan. 1982)
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Graphite intercalation compounds
Compounds of graphite with bromine trifluoride. Nikonorov, Y.I. (Lenin Komsomol Novosibirsk State Univ., USSR). Inorg. Mater. v.18(1) p.l10-14 (Jan. 1982) Translation of: Izv. Akad. Nauk SSSR Neorg. Mater. v.18(1) p.130-4 (Jan. 1982)
Development of a high conductivity intercalated graphite composite wire. Singhal, S.C. (Res. Dev. Cent., Westinghouse Electr. Corp., Pittsburgh, PA USA). Report, DOE/ET/29044-1 (1982); Order No. DE82008973, 147 pp. Avail. NTIS.
Dielectric function and critical-point transitions in boron-doped graphite. Preil, M.E. (Phys. Dept., Univ. of Pennsylvania, Philadel- phia, PA, USA), Tatar, R.C., DiVincenzo, D.P., Fischer, J.E. Phys. Rev. B v.26(8) p.4674-9 (15 Oct. 1982)
Electronic and magnetic properties of europium-intercalated graphite. Kaindl, G., Feldhaus, J., Ladewig, U., Frank, K.H. (Inst. At. Festkoerperphys., Freie Univ. Berlin, D-1000 Berlin, 33 Fed. Rep. Ger.) Phys. Rev. Lett. v.50(2) p.123-6 (1983)
8. Metallic conductivity and a i r s t a b i l i t y in copper chloride in te rca la ted carbon f ibers . Oshima, H., Woollam, J.A., Yavrouian, A. (Dep. Elect r . Eng., Univ. Nebraska, Lincoln, NN 68588 USA). J. Appl. Phys. v. 53(12) p.9220-3 (1982)
9. Microscopic analysis of stage dependent intercalant in-plane density in iron(Ill) chloride-intercalated graphite. Millman, S.E. (Dep. Phys., Boston Univ., Boston, MA 02215 USA). Phys. Lett. A v.92A(9) p.441-4 (1982)
I0. Monolayers of CFa adsorbed on graphite, studied by synchrotron X-ray diffraction.- Kjaer, K., Nielsen, M., Bohr, J. (Riso Nat. Lab., Roskilde, Denmark), Lauter, H.J., McTague, J.P. Phys. Rev. B v. 26(9) p.5168-74 (i Nov. 1982)
II. New applications of graphite. (a review with no references on catalysts from graphite compounds with transition metal compounds and their structures). (Russian) Vol'pin, M.E. (Inst. Elementoorg. Soedin., Moscow, USSR). Nauka SSSR (2) p.56-7, 107-9 (1982)
12. Novel structural properties of graphite intercalation compounds. Solin, S.A. (Dept. of Phys., Michigan State Univ., East Lansing, MI, USA). Novel Materials and Techniques in Condensed Matter. Proceedings of the Twenty-Ninth Midwest Solid State Conference, Argonne, IL, USA. 25-26 Sept. 1981 (Amsterdam, Netherlands: North-Holland 19~2), p.253-79
13. Observation of superlat t ice- induced Raman nodes in graphite-potassi~n- amalgmn compounds. Timp, G., Elmira, B.S., A1-Jishi, R., Dresselhaus, G. (Cent. Mater. Sci. Eng., gassachusetts Inst. Technol., Cambridge, MA 02139 USA). Solid State Comun. v.44(7) p.987-91 (1982)
14. Pressure dependence of the superconducting transition temperature of the stage-2 potassi1~n mercurographitide intercalation compound. DeLong, L.E., Yeh, V., Eklund, P.C. (Dep. Phys. Astron., Univ. Kentucky, Lexington, KY 40506 USA). Solid State Conlnun. v.44(8) p. I145-50 (1982)
15. Raman scat ter ing from low-frequency phonons in stage-2 graphite-rubidi~n in te rca la t ion compounds. Giergiel , J . , gklund, P.C., A1-Jishi, R., Dresselhaus, G. (Dep. Phys. Astron., Univ. Kentucky, Lexington, KY 40506 USA). Phys. Rev. B: Condens. Matter v.26(12) p.6881-7 (1982)
16. Study of c la thra te c6~potmds of organic molecules with a graphite + potassi~n (KC24) system. (Russian) Bl.v~nenfel'd, A.L. (USSR). Sovrem. bletody YAMR i EPR v Khimii Tverd. Tela. bg te r ia ly 3 Vses. Koordinats. Soveshch. Uchenykh i Spets. In-tov AN SSSR, Noginsk, 1-3 Iyunya, 1982, Chernogolovka 1982, 53-5. From Ref. Zh., k~im. 1982, Abstr. No. 20B634.
83
17. Superconductivity of graphite intercalation compounds with alkali-metal amalgams. Iye, Y., Tanuma, S. (The Institute for Solid State Physics, The University of Tokyo, Roppongi, Minato-ku, Tokyo, 106 Japan). Phys. Rev. B v.25(7) p.4583-4592 (01 Apr. 1982)
18. Tetrafluoromethane monolayer physisorbed on graphite: its orientational walls and its complex phase diagram. Croset, B., Marti, C., Thorel, P., Lauter, H. (Inst. Laue-Langevin, Grenoble, France). J. Phys. v.43(II) p.1659-67 (Nov. 1982)
19. Thermal decomposition of a product of the inclusion of nitroform in a matrix made of graphite oxide. (Russian) Nedel'ko, V.V., Korsunskii, V.L., l~rkhovskaya, M.Y., Nazarov, A.S. (Inst. Khim. Fiz., Cherno~olovka, USSR). Izv. Akad. Nauk SSSR, Ser. Khim. (Ii) p.2600-i (1982)
Ko
I.
2.
3.
4.
S.
6.
7.
Other related intercalation and layered compounds
Anomalies of critical magnetic fields in filamentary and layered super- conductors. (Russian) Shchetkin, I.S. (Fiz.-Tekh. Inst. Nizk. Temp., Kiev, USSR). Metallofizika (Akad. Nauk Ukr. SSR, Otd. Fiz.) v.4(6) p.97-9 (1982)
Diamagnetism of conduction electrons in thin films of metal-containing layered compounds. (Russian) Gorskii, P.V., Nitsovich, V.M. (chernovits. Gos. Univ.,Chernovtsy, USSR). Fiz. Met. Metalloved. v.54(6) p.I088-94 (1982)
Diffusion of lithium in intercalated compound lithium titanate (LixTi02). (Chinese) Xing, X., Shi, M., Chert, M., ~h, H. (Dep. Chem., Fudan Univ., Shanghai, Peop. Rep. China). IIuaxue Xuebao v.40(ll) p.969-76 (1982)
Effect of disorder on the atomic lithi~n intercalation properties of lithi~n tantal~n titaniL~n sulfide (LixTavTil_vS2): a mean-field theory. Osorio, R., Falicov, L.M. CLawr~nce Berkeley Lab., Univ. California, Berkeley, CA 94720 U~). J. Chem. Phys. v.77(12) p.6218-22 (1982)
Formation and thermal decomposition of pyridine intercalates of~- andS-zirconium phosphates. Kijima, R. (Natl. Inst. Res. Inorg. Mater., Sakua, Japan 305). Thermochim. Acta v.59(I) p.95-i04 (1982)
8. Lattice vibrations in the orthorhombic cor~nensurate charge density wave phase of 2H-tantalum selenide (TaSe2). Sugai, S. (Dep. Phys., Osaka Univ., Toyonaka, Japan 560). Solid State Comun. v.44(8) p. I141-3 (1982)
9. Mott transition in layered semiconductors. (InSe was intercalated with Pb after preliminary intercalation with Li). (Russian) Kovalyuk, Z.D., Serdyuk, A.I., Tovstyuk, K.D. (Inst. Probl. Materialoved., Chernovtsy, USSR). Fiz. Tekh. Poluprovodn. v.16(ll) p.2061-3 (1982)
i0. Paramagnetism of carriers in layered crystals. (the paramagnetic sus- ceptibility x of layered crystals due to current carriers was calcd. based on chem.-potential methods. As the temp. increases, x decreases monotonically. ~his model ex-olains previous observations of TaS 2 and TaSe2. ). (Russian) Lukiyanets, B.A., Vovkivskaya, G.V. (Inst. Probl. Material0ved., Chernovtsy, USSR). Ukr. Fiz. Zh. (Russ. Ed.) v.27(12) p.1861-3 (1982)
II. Peculiarities of thermal expansion of layered crystals. (linear expan- sion coeffs, parallelall, and perDendicular,a~, the layer plane of GaS, GaSe, and TIGaS 2 were investigated at 5-300 K.). Belenkii, G.L., Abdullaeva, S.G., Solodukhin, A.V., Suleimanov, R.A. (Inst. Phys., 370143 Baku, USSR). Solid State Commun. v.44(12) p.1613-15 (1982)
12. Some physico-chemica! peculiarities of the intercalation of InSe and GaSe single crystals. (Russian) Grigorchak, I.I., Kovalyuk, Z.D., Yurtsen)~k, S.P. (L'vovskij Politekhnicheskij Inst. (Ukrainian SSR)) Fiz. Ehlektron. (L'vov) v.22 p:101-105 (1981)
Organic Conductors and Related Phenomena, June 1983, No.12 85
A. General organic conductors
I. Dielectric properties of cobalt phthalocyanine. (an organic semiconduc- tor). Nalwa, H.S., Vasudevan, P. (Dept. of Chem., Indian Inst. of Technol., New Delhi, India). J. Mater. Sci. Lett. v.2(1) p.22-4 (Jan. 1983)
2. Effect of Lamellar structure on ferroelectric switching in poly(vinyli- dene fluoride). Clark, J.D., Taylor, P.L. (Department of Physics, Case Western Reserve University, Cleveland, Ohio 44106). Phys. Rev. Lett. v.49(20) p.1532-1535 (15 Nov. 1982)
3. Electronic structure of polyacenacene. A one-dimensional graphite. Yamabe, T., Tanaka, K., Ohzeki, K. (Dept. of Hydrocarbon Chem., Kyoto Univ, Kyoto, Japan). Solid State Co~mun. v.44(6) p.823-5 (Nov. 1982)
7. 'Photoconduction of copper phthalocyanine-binder resin system sensitized by poly-N-vinylcarbazole' Yagishita, T., Ikegami, K., Narusawa, T., Okuyama, H. (Fujitsu Lab. Ltd. Kawasaki, Japan). Conference Record of the Industry Applications Society IEEE-IAS- 1982 Annual Meeting, San Francisco, CA, USA, 4-7 Oct. 1982 (New York, USA: IEEE 1982), p.1229-33
8. Photophysical processes in poly (N-vinylindole)-in relation to the phenomenon of charge carrier trapping. (Japanese) Shirota, Y., Fukuhara, K., Iinuma, F., Mikawa, H. (Dept. of Appl. Chem., Osaka Univ., Osaka, Japan). Electrophotography v.20(3) p.136-40 (1982)
Castaing microprobe analysis of doped polyacetylene films. Rolland, M., Aldissi, M., Cadene, M., Bresse, J.F., Benoit, C. (Montpellier-2 Univ., 34 (France). Groupe de Dynamique des Phases Condensees). Rev. Phys. Appl. v.17(6) p.373-375
Conversion of cis-polyacetylene to trans-polyacetylene during doping. Hoffman, D.M., Gibson, H.W., Epstein, A.J., Tanner, D.B. (Dep. Phys., Ohio State Univ., Columbus, OH 43210 USA). Phys. Rev. B: Condens. Matter v.27(2) p.1454-7 (1983)
86
3. Effect of pressure on the electronic properties of polyacetylene. (published in surmaary form only). Perez, A., Albert, J.P., Jouanin, C. (Montpellier-2 Univ., 34 (France). Centre d'Etudes d'Electronique des Solides). p.56 Max-Planck-Institut fuer Festkoerperforschung, Stuttgart (Germany, F.R.). High pressure in solid state physics. EHPRG final program. (nd). iii p. Annual Meeting of the European High Pressure Research Group: High Pressure in Solid State Physics. Stuttgart (Germany, F.R.). 31 Aug.-02 Sep. 1982
8. Paramagnetic solitons in different polyacetylene structures. (German) Bartl, A., Froehner, J. (Zentralinst. Festkoerperphys. Werkstof- forsch., Dtsch. Akad. Wiss., Dresden, Ger. Dem. Rep.). Plaste Kautsch. v.29(Ii) p.668-9 (1982)
9. Phonons in trans-polyacetylene: delocalized bond-bond interactions. Piseri, L., Tubino, R. (Istituto di Chimica delle Macromolecole, CNR, Milano, Italy), Dellepiane, G. Solid State Conmun. v. 44(12) p.1589-92 (Dec. 1982)
I0. Photoconductivity in trans (CH)x: a proof for the existence of solitons? Kiess, H., Keller, R., Baeriswyl, D., Harbeke, G. (Labs. RCA Ltd., Zurich, Switzerland). Solid State Cormmm. v.44(I0) p.1443-7 (Dec. 1982)
Ii. Polyacetylene films with high electric conductivity. Toray Industries, Inc. Jpn. Kokai Tokkyo Koho JP 57,164,109 (82,164,109) 4 pp. (8 Oct. 1982)
12. Scanning electron microscopy study of doped polyacetylene. (published in s~mmary form only). Rolland, M., Cadene, M. (Montpellier-2 Univ., 34 (Prance). Groupe de Dynamique des Phases Condensees), Aldissi, M. (Montpellier-2 Univ., 34 (France). Lab. de Chimie Macromoleculaire). J. Electron Microsc. v.31(2) p.194-197 (1982)
13. Soliton diffusion in polyacetylene. III. Low-temperature regime. Maki, K. (Department of Physics, University of Southern California,
87
Los Angeles, California 90007). Phys. Rev., B v.26(8) p.4539-4542 (15 Oct. 1982)
14. Theoretical treatment of the dielectric response of all-trans-polyacety- lene. Mintmire, J.W., White, C.T. (Nav. Res. Lab., Washington, DC 20375 USA). Phys. Rev. B: Condens. Matter v.27(2) p.1447-9 (1983)
C. ]TF (tetrathiafulvalene and related compounds)
I. Electrochemistry of tetrathiafulvalene polymers, anion effects on charge transport through donor substituted thin polymer films. Chambers, J.Q., Kaufman, F.B., Nichols, K.H. (Dep. Chem., Univ. Tennessee, Knoxville, TN 37996 USA). J. Electroanal. Chem. Interfacial Electrochem. v.142(i-2) p.277-87 (1982)
2. High pressure and high magnetic field effects on spin-Peierls systems. (TTF-BDT(Cu) and MEM(TCNQ). Bloch, D., Voiron, J. (Lab. Louis Neel, CNRS, Grenoble, France), Vettier, C., Kommandeur, J., Bray, J.W., Jacobs, I.S.: Interrante, L.V., Bonner, J.C. Phys. Scr. v.Tl p.24 (1982)
3. Superconductivity in a new family of organic conductors. ((BEDT-I~fF)4 - (ReO4)2). Parkin, S.S.P., Engler, E.M., Schumaker, R.R., Lagier, R., Lee, V.Y., Scott, J.C., Greene, R.L. (Res. Lab., IBM, San Jose, CA 95193 USA). Phys. Rev. Lett. v.50(4) p.270-3 (1983)
D.
i.
2.
3.
4.
5.
TCNQ (tetracyanoquinodimethane and related compounds)
The AC conductivity of the polyvinylcarbazole-tetracyanoquinodimethane (PVK:TCNQ) CT complex. Kuczkowski, A., Zielinski, R. (Gdansk Univ. (Poland). Inst. Fizyki). J. Phys., D. Appl. Phys. v.15(9) p.1765-1768 (14 Sep. 1982)
Association equilibria in acetonitrile solution of tetracyanoquino- dimethanides. Malachowicz, G., Komorowski, L. (Inst. of Organic & Phys. Chem., Tech. Univ. of Wroclaw, Wroclaw, Poland). Chem. Phys. Lett. v.92(6) p.663-6 (12 Nov. 1982)
Disproof of extreme enhancement of electronic third order hyperpolari- zability in TCNQ. Meredith, G.R., Buchalter, B. (Webster Res. Cent., Xerox Corp., Webster, NY 14580 USA). J. Chem. Phys. v.78(3) p.1615-16 (1983)
Electrical properties of TCNQ conplex salts with polycations containing sulfur atoms in the main chain. Pecherz, J., Kryszewski, M. (Cent. Mol. Macromol. Stud., Polish Acad. Sci., 90-362 Lodz, Pol.) Acta Polym. v. 34(I) p.19-27 (1983)
Lithium battery. (TCNQ is used as the cathode active material, Li as the anode active material). Nippon Telegraph and Telephone Public Corp. Jpn. Kokai Tokkyo Koho JP 57,210,567 (82,210,567) 5 pp. (24 Dec. 1982)
88
6. Magnetic properties of quasi-one-dimensional tetracyanoquinodimethane salts. (a review with 23 references). (Polish) Graja, A. (Inst. Fiz. Mol., PAN, 60-179 Poznan, Pol.). Pr. Kom. Mat.-Przyr., Poznan. Tow. Przyj. Nauk, Fiz. Dielektr. Radiospektrosk. v.12(i-2) p.85-I04 (1981)
7. Magnetic susceptibility of some alkyltriphenylphosphonium salts of TCNQ. (Polish) Komorowski, L., Drulis, H. (Inst. Chem. Org. Fiz., Poli- tech. Wroclawska, Wroclaw, Pol.). Mater. Ogolnopol. Konf. "Kryszt. Mol. 81", 3rd p.161-4 (1981)
8. Newq~-donor-acceptor compounds derived from a macrocyclic metal complex. (TCNQ). Cassoux, P., Interrante, L., Kasper, J. (Lab. Chim. Coord., CNRS, 31400 Toulouse, Fr.). Mol. Cryst. Liq. Cryst. v.81(I-4) p.293-300 (1982)
9. Optically induced transformations of metal tetracyanoquinodimethane materials. Kamitsos, E.I., Risen, W.M.Jr. (Dep. Chem., Brown Univ., Providence, RI 02912 USA). Solid State Commun. v.45(2) p.165-9 (1983)
i0. Phase transition in N-methyl-N-ethylmorpholinium tetracyanoquinodime- thanide ((MEM(TCNQ)2) single crystals by infrared reflection spec- troscopy. Swietlik, R. (Inst. Mol. Phys., Pol. Acad. Sci., 60-179 Poznan, Pol.). Solid State Cow,nun. v.45(I) p.27-9 (1983)
II. Spectral study of TMA salts with TCNQ and with iodine. (Polish) Graja, A., Flandrois, S. (Inst. Fiz. Mol., PAN, Poznan, Pol.). Mater. Ogolnopol. Konf. "Kryszt. Mol. 81", 3rd p. I04-7 (1981)
12. Spectroscopic study of TCNQ salts composed of isolated (2TCNQ) 2- dimers. (Polish) Graja, A., Swietlik, R., Sekretarczyk, G. (Inst. Fiz. Mol., PAN, Poznan, Pol.). Mater. Ogolnopol. Konf. "Kryszt. Mol. 81", 3rd p.lll-16 (1981)
13. Structural phase transitions in crystals with coupled softening modes. (a phase diagram is given and a possible application to alkali-TCNQ salts is discussed.). Lepine, Y. (Dept. de Phys., Univ. de Mon- treal., Montreal, Quebec, Canada). Solid State Cor~nun. v.44(8) p.1269-73 (Nov. 1982)
14. Structures of free radical salts and complexes. XVI. l,l'-Tetra- methylenedipyridinium 7,7,8,8-tetracyano-p-quinodimethanide (I : 4) ~4Hl18N22,+E4.C12~g41./~em. Wa~aWe~otWt~nW~l~lw°~k~tSnCh~AShK ell' G.J.,
NG7 2RD). Acta Crystallogr., Sect. C v. C39(i) p.131-4 (1983)
15. Synthesis and crystal structure of 1:2 molecular complex between N,N'- (I, 3- trimethylene) bis (2 - oxy- l-naphthaldimine) copper (I I ) and 7,7' ,8,8'-tetracyanoquinodimethane. Matsumoto, N., Miyazaki, T., Sagara, Y., Ohyoshi, A. (Fac. Eng., Kumamoto Univ., Kumamoto, Japan 860). Inorg. Chim, Acta v.63(2) p.249-56 (1982)
16. Tetracyanoanthraquinodimethane compounds and polymers and charge-transfer complexes derived from them. ~ota, S., Tosaka, T., Sunoda, N., Shimotst~na, W. (Matsushita Electric Industrial Co., Ltd.) Eur. Pat. Appl. EP 61-264 22 pp. (29 Sep. 1982)
E.
I.
2.
~SF (tetramethy!tetraselenafulvalene and related compounds)
Semimetallic SDW state in quasi one-dimensional conductors. (a quasi l-DHubbard model embodying features of (TMTSF)?PF 6 was studies). Yamaji, K. (Electrotechnical Lab., Sakura, Ibar~ki (Japan)). J. Phys. Soc. Jpn. v.51(9) p.2787-2797 (Sep. 1982)
Shubnikowde Haas effect in (TMTSF)2CIO 4. (letter to the editor). Bando, H., Oshima, K., Suzuki, ~. (Tokyo Univ. (Japan). Cryogenic Centre), Kobayashi, H. (Toho Univ., Funabashi, Chiba (Japan). Faculty of Science), Saito, G. (Institute for Molecular Science, Okazaki, Aichi (Japan)). J. Phys. Soc. Jpn. v.51(9) p.2711-2712 (Sep. 1982)
89
F.
I.
2.
3.
4.
5.
6.
7.
Miscellaneous charge transfer salts and complexes
Ab initio and semiempirical studies of the equilibri~ geometry and in- plane vibrational spectra of tetracyanoethylene and the tricyano- vinyl alcoholate anion. Hipps, K.W., Poshusta, R.D. (Dept. of Chem. and Phys. Program, Washington State Univ., Pullman, ~, USA). J. Phys. Chem. v.86(21) p.4112-19 (14 Oct. 1982)
Effect of the perfection of samples on phase transitions in tetraseleno- tetracene chloride. (Russian) Kononovich, P.A., Laukhin, V.N., Pesotskii, S.I., Shchegolev, I.F., Khomenko, A.G. (Inst. Khim. Fiz., Moscow, USSR). Pis'ma Zh. Eksp. Teor. Fiz. v.37(2) p.77-9 (1983)
EPR investigation of excited triplet states in single cyrstals of charge-transfer complexes of diphenylacetylene-tetracyanobenzene. Pasimeni, L., Guella, G., Gorvaja, C. (Padua Univ. (Italy). Inst. of Physical Chemistry). J. Magn. Resonance v.47(2) p.227-239 (Apr. 1982)
Ising-like spin-I/2 quasi-one-dimensional antiferromagnets: Spin- wave response in CsCoX3 salts. Nagler, S.E., Buyers, W.J.L., Armstrong, R.L., Briat, B. (At. Energy Canada Ltd., Chalk River, ON Can. K0J IJ0). Phys. Rev. B: Condens. Matter v. 27(3) p.1784-99 (1983)
Multispin-wave contributions to the excitation spectrum of one-dimension- al easy-plane antiferromagnets, tetramethylanmonium manganese chloride ((CH~)4NMnCI3). Riseborough, P.S., Reiter, G.F. (Dep. Phys., Polyte~h. Inst? New York, Brooklyn, NY 11201 USA). Phys. Rev. B: Condens. Matter v.27(3) p.1844-60 (1983)
Neutral to ionic phase transition and Raman vibronic effects in charge transfer organic cyrstals. (published in stmmary fo~n only). Girlando, A., Pecile, C., Bozio, R. (Padua Univ. (Italy). Inst. of Chemical Physics), Torrance, J.B. (INM Research Div., San Jose, CA (USA)). p.445-446 Lascombe, J., Huong, P.V. (eds.). Raman spectroscopy. Linear and nonlinear. Proceedings. ISBN 0471262412 Chichester (UK). Wiley. 866 p. (1982)
Synthesis, characterization, and conductivity of (~-cyano)(phthalocyani- nato)cobalt(III). Metz, J., Hanack, M. (Inst. Org. Chem., Univ. Tuebingen, D-7400 Tuebingen, Fed. Rep. Ger.). J. Am. Chem. Soc. v. I05(4) p.828-30 (1983)
90
G. One-dimensional systems
I. Conduction bands in quasi-one-dimensional incor~nensurate Hg 3_ AsF 6 compound. Mukhin, S.I. (Inst. of Steel & Alloys, Moscow, USSR). Sov. Phys.-Solid State v.24(5) p.822-3 (May 1982). Translation of: Fiz. Tverdogo Tela v.24(5) p.1446-8 (May 1982)
2. Dynamic formfactorof neutron scattering on solitons in the quasi-one- dimensional magnetics. (Russian) Fedyanin, V.K. (Joint Inst. for Nuclear Research, Dubna (USSA)). JINR-P-17-82-583 8 p. (1982) International Conference on Magnetism (ICM '82) Kyoto (Japan). Sep. 06-10, 1982
3. Electron transition in trimerizing quasi-one-dimensional molecular crystals allowing for electron-vibration interactions. (Russian) Yartsev, V.M. (Chelyab. Univ., Chelyabinsk, USSR). Izv. Vyssh. Uchebn. Zaved., Fiz. v. 25(ii) p.i17-19 (1982)
4. Kink dynamics in one-dimensional nonlinear systems. Kawasaki, K., Ohta, T. (Dept. of Phys., Faculty of Sci., Kyushu Univ., Fukuoka, Japan). Physica A. v.l16A(3) p.573-93 (Dec. 1982)
5. Magnetoresistance in quasi-one-dimensional compounds. Gottlieb, D., Hojman, R.A. (Dept. de Fisica, Univ. de Santiago de Chile, Casilla, Santiago, Chile), Ron, A. Phys. Rev. B v. 26(II) p.6297-9 (I Dec. 1982)
6. Microscopic evidences of bipolarons in the quasi-one-dimensional con- ductor -Na n ~V20 ~. Onoda, M., Takahashi, T., Nagasawa, H. (Inst. of Phys., Uni~?~of Tsukuba, Ibaraki, Japan). J. Phys. Soc. Jpn. v.51(12) p.3868-75 (Dec. 1982)
7. Neutron scattering on solitons in the quasi-one-dimensional systems. (Russian) Fedyanin, V.K. (Joint Inst. for Nuclear Research, Dubna (USSR)). JINR-P-17-82-582 8 p. (1982) Yamada Conference on Neutron Scattering of Condensed Matter Tokyo (Japan) Sep. 01-03, 1982.
8. Polarons in quasi-one-dimensional systems. Campbell, D.K., Bishop, A.R., Fesser, K. (Theoretical Div., Los Alamos Nat. Lab., Los Alamos, ~, USA). Phys. Rev. B v.26(Ii) p.6862-74 (15 Dec. 1982)
9. Radiolysis of quasi-unidimensional organic conductors. (French) Bouffard, S., Mermilliod, N. (CEA Centre d'Etudes Nucleaires de Fontenay-aux-Roses, 92 (France)). CEA-CONF-629S 4 p. (June 1982) Meeting on radiation chemistry Louvain-la-Neuve (France) (15-18 June 1982)
I0. The role of Coulomb screening in quasi one-dimensional conductors. Barisic, S. (Dep. Phys., Fac. Sci., 41000 Zagreb, Yugoslavia). J. Phys. v.44(2) p.185-99 (1983)
II. Role of elemental mercury in the superconductivity of Hg~_ AsF 6. (a quasi-l-D incommensurate compound). Schirber, J.E. ~Sandia Nat. Labs., Albuquerque, ~, USA), Heeger, A.J., Nigrey, P.J. (Univ. of
91
Pennsylvania, Philadelphia, PA 19104) Phys. Rev. B v.26(II) p.6291-3 (I Dec. 1982)
12. Semiconductor - metal transition in a one-dimensional electron system. Bulka, B.R. (Polska Akademia Nauk, Poznan. Inst. Fizyki Molekularnej) p.153-156 Hochschule fuer Verkehrswesen Friedrich List, Dresden (German Demo- cratic Republic). 4th international seminar on magnetism. Pro- ceedings. Dresden (German Democratic Republic). 185 p. (1981)
13. Solitons in quasi-one-dimensional molecular structures. Davydov, A.S. (Inst. Teor. Fiz., Kiev, USSR). Usp. Fiz. Nauk v.138(4) p.603-43 (1982)
(Russian)
14. Temperature dependence of the resistivity of Hg 3 AsF.. (a quasi-l-D Batalla, E., Datars, W.R. (McMaster Univ., incommensurate compound). - o
Hamilton, Ontario (Canada). Dept. of Physics). Can. J. Phys. v. 60(9) p.1348-1357 (Sep. 1982)
15. Zero-energy gaps for deep one-dimensional periodic potentials. berg, M.W.P. (Dept. of Phys., MIT, Cambridge, MA, USA). Am. J. Phys. v.50(12) p. I168-9 (Dec. 1982)
Strand-
H . NbSe~,__~ (niobium triselenide, tantalum trisulphide and related compounds -
i. I. Interaction of quasi-one-dimensional NbSe 3 crystals with electro- magnetic radiation in the microwave region. Ivanov, N.I., Shchet- kin, I.S. (Physicotech. Inst. of Low Temperatures, Acad. of Sci., Khar'kov, Ukrainian SSR). Sov. Phys.-Tech. Phys. v.27(3) p.315-16 (March 1982). Translation of: Zh. Tekh. Fiz. v.52(3) p.492-5 (March 1982)
2. 93Nb MMR study of NbSe 3, Devreux, F. (CEA Centre d'Etudes Nucleaires de Grenoble, 38 (France). Dept. de Recherche Fondamentale). J. Phys. v.43(I0) p.1489-1495 (Oct. 1982)
3. Nonlinear a.c. dynamics of charge-density-wave condensate in niobi~n selenide (NbSe3). Tessema, G.X., Ong, N.P. (Dep. Phys., Univ. South. California, Los Angeles, CA 90089 USA). Phys. Rev. B: Condens. Matter v.27(2) p.1417-19 (1983)
4. New I-D chalcogen-rich niobium and tantalum chalcogenides. Rouxel, J. (Lab. Chim. Solides, Univ. Nantes, Nantes, Fr.). Mol. Cryst. Liq. Cryst. v.81(I-4) p.31-40 (1982)
5. Observation of new x-ray diffuse scattering features in iron niobium selenide (FeNb3Seln). Moret, R., Pouget, J.P., Meerschaut, A., Guemas, L. (Lab. Phys. Solides, Univ. Paris-Sud, 91405 Orsay, Fr.). J. Phys., Lett. v. 44(2) p.93-7 (1983)
I.
i.
Charge and spin density wave dynamics
CDW ground states and electron-hole syn~netry of a two-dimensional electron system in strong magnetic fields. Kuramoto, Y. (Dept. of Appl. Phys., Tohoku Univ., Sendai, Japan), Gerhardts, R.R. J. Phys. Soc. Jpn. v.51(12) p.3810-19 (Dec. 1982)
92
2.
3.
4.
5.
Charge density fluctuations in a quasi-one-dimensional CDW distorted solid. Gasser, W. (TechnischeUniv., Dresden (German Democratic Republic). Sektion Physik), Heiner, E. (Zentralinstitut fuer Kern- forschung, Rossendorf bei Dersden (German Democratic Republic)). p.157-163. Hochschule fuer Verkehrswesen Friedrich List, Dresden (German Demo- cratic Republic). 4th international seminar on magnetism. Pro- ceedings. Dresden (German Democratic Republic). 185 p. (1981) Also published in Mater. Sci. v.7(2/3) p.147-152 (1981) 4. International Seminar on Magnetism. Hetzdorf (German Democratic Republic). Apr. 07-10, 1981.
The dielectric response of a charge density wave (CDW) distorted electron phonon system in the precritical region. II. Macroscopic dielectric function and conductivity. Heiner, E. (Zentralinst. fur Kernfor- schung, Akad. der Wissenschaften, Rossendorf, Germany) Phys. Status Solidi b v. l14(1) p.121-4 (I Nov. 1982)
Effect of viscosity on collective Zener tunneling in charge density wave systems. Wonneberger, W. (Illinois Univ., Urbana (USA). Dept. of Physics). Z. Phys., B v. S0(1) p.23-32 (Feb. 1983)
On possible coexistence of superconductivity and spin density waves in organic superconductors. Fenton, E.W., Psaltakis, G.C. (Div. of Phys., Nat. Res. Council of Canada, Ottawa, Canada). Solid State Con~nun. v.45(I) p.5-8 (Jan. 1983)
6. Theory of solitons in molecular chains. (Russian) Eremko, A.A., Sergienko, A.I. (Inst. Teor. Fiz., Kiev, USSR). Fiz. Tverd. Tela v.24(12) p.3720-2 (1982)
J. Graphite intercalation compounds
I. Anisotropy of the mechanism of conduction in graphite insertion com- pounds. (French) Issi, J.P. (Lab. Phys. Chim. Phys. Etat Solide, Univ. Cathol. Louvain, B-1348 Louvain-la-Neuve, Belg.). Rev. Chim. Miner. v.19(4-5) p.394-406 (1982)
2. Appearance of a counter-FiMF in the intercalation compound C93AIC13 3 during a phase transition. Brandt, N.B., Ionov, S.G., Kuvshi~ikov, S.V. (M.V. Lomonosov State Univ., Moscow, USSR). Sov. Tech. Phys. Lett. v.8(2) p.98-9 (Feb. 1982). Translation of: Pis'ma v Zh. Tekh. Fiz. v. 8(3-4) p.224-7 (Feb. 1982)
3. C-axis resistivity of stages 1-7 potassium-intercalated graphite. Phan, K., Fuerst, C.D., Fischer, J.E. (Lab. for Res. on the Structure of Matter, Univ. of Pennsylvania, Philadelphia, PA, 19104, USA). Solid State Commun. v.44(9) p.1351-5 (Dec. 1982)
4. Charge transfer, bond length and all that in graphite intercalation com- pounds. Pietronero, L., Straessler, S. (Brown Boveri Res. Cent., CH-S40S Baden, Switz.). Rev. Chim. Miner. v.19(4-5) p.545-59 (1982)
93
5. Composition of the intercalation compounds of graphite with arsenic pentafluoride and with antimony pentafluoride. Pentenrieder, R., Boehm, H.P. (Inst. fur Anorganische Chem., Univ. Munchen, Munchen, Germany). Rev. Chim. Miner. v.19(4-5) p.371-86 (1982)
6. Cyclic thermal transformations in cesium graphite. Ubbelohde, A.R., Drummond, I. (Dep. Chem. Eng. Chem. Technol., Imp. Coll., London, UK SW7 2BY). Nature v.300(5887) p.45-6 (1982)
7. Effect of doping elements on the morphology of graphite grown from Ni-C melts. Munitz, A., Nadiv, S. (Dept. of Materials Engng., Technion, Israel Inst. of Technol., Haifa, Israel). J. Mater. Sci. v.17(12) p.3409-22 (Dec. 1982)
8. Effect of in-plane density on the structural and elastic properties of graphite intercalation compounds. Woo, K.C., Kamitakahara, W.A., DiVincenzo, D.P., Robinson, D.S., Mertwoy, H., Milliken, J.W., Fischer, J.E. (Moore Sch. Electr. Eng., Univ. Pennsylvania, Philadelphia, PA 19104 USA). Phys. Rev. Lett. v. 50(3) p.182-5 (1983)
9. The effect of intercalation on the lattice constants of graphite. Krapchev, T., Ogilvie, R., Dresselhaus, M.S. (Cent. Mater. Sci. Eng., Massachusetts Inst. Technol., Cambridge, MA 02139 USA). Carbon v.20(4) D.331-7 (1982)
I0. Electrochemical characterization of highly oriented carbon fibers. (in re- lation to intercalation reactions). (French) Besenhard, J.O., Moehwald, H., Nickl, J.J. (Inorg. Chem. Inst., Techn. Univ. Munich, D-8046 Garching, Fed. Rep. Ger.). Rev. Chim. Miner. v. 19(4-5) p.588-601 (1982)
II. Electrochemical production of graphite salts using a three-dimensional electrode of graphite particles. Jnioui, A., Metrot, A., Storck, A. (Lab.Sci. ~en.Chim., Ec. Natl. Super. Ind. Chim., 54042 Nancy, Fr.). Electrochim. Acta. v.27(9) p.1247-52 (1982)
12. Electronic and lattice contributions to the thermal conductivity of graphite intercalation compounds. Issi, J.P., Heremans, J., Dres- selhaus, M.S. (Lab. Phys.-Chim. Phys., Univ. Catholique Louvain, B-1348 Louvain-la-Neuve, Belg.). Phys. Rev. B: Condens. Matter v.27(2) p.1333-47 (1983)
13. 19F NMR investigations of antimony pentafluoride intercalated oriented graphite. Roth, G., Goebbels, J., Luders, K. (Inst. fur Atom- und Festkorperphys., Freie Univ. Berlin, Berlin, Germany), Pfluger, P., Gtmtherodt, H.-J. Rev. Chim. Miner. v. 19(4-5) p.387-93 (1982)
14. Fe 57 Mossbauer studies of intercalated FeCI 2 graphite and graphite (Fe) catalyst. Kulshreshtha, S.K., Iyer, R.M. (Bhabha Atomic Research Centre, Bombay (India). Chemistry Div.). p.39-53 Proceedings of the symposium on surface and interface properties in materials science. 393 p. (1982)
15. Graphite intercalation compound of magnesium fluoride and fluorine. Nakajima, T., Kawaguchi, M., Watanabe, N. (Dept. of Industrial Chem., Kyoto Univ., Kyoto, Japan). Carbon v.20(4) p.287-91 (1982)
94
16. In situ x-ray investigation of stage transformations in potassium- graphite intercalation compounds. Misenheimer, M.E., Zabel, H. (Dep. Phys., Univ. Illinois, Urbana, IL 61801 USA). Phys. Rev. B: Condens. Matter v.27(2) p.14436-6 (1983)
17. Insertion of niobium pentafluoride as well as molybdenum and tungsten oxyfluorides into graphite. (French) Hamwi, A., Touzain, P. (Lab. Adsorption Reaction Gaz Solides, Ec. Natl. Super. Electrochim. Electrometall. Grenoble, 38401 Saint-Martin-d'Heres, Ft.). Rev. Chim. Miner. v.19(4-5) p.432-40 (1982)
18. Intercalation of pentafluoroorthotelluric acid in graphite. (German) Kebschull, R., Stumpp, E. (Tech. Univ. Clausthal, Inst. fur Anor- ganische Chem., Clausthal-Zellerfeld, Germany). Rev. Chim. Miner. v.19(4-5) p.461-6 (1982)
19. Low temperature x-ray diffraction study of stage 1 graphite-iron(III) chloride. Mazurek, H., Ghavamishahidi, G., Dresselhaus, G., Dres- selhaus, M.S. (Massachusetts Inst. Technol., Cambridge, MA 02139 USA) Carbon v. 20(S) p.415-18 (1982)
20. Mechanism of insertion in highly conducting graphite intercalation compounds. Vogel, F.L., Forsman, W.C., Leong, K., Dziemianowicz, T. (Univ. Pennsylvania, Philadelphia, PA USA). Report 1981, Order No. AD-AII9722 4 pp. Avail. NTIS.
23. New interpretation of the electron-diffraction pattern for high-stage rubidium-graphite intercalation compounds. Hwang, D.M. (Dep. Phys., Univ. IllSnois, Chicago, IL 60680 USA). Phys. Rev. B: Condens. Matter v.27(2) p. II19-21 (1983)
24. Observation of nonhexagonal superlattices in high-stage cesi~n inter- calated graphite. Hwang, D.M., Parker, N.W., Utlaut, M., Crewe, A.V. (Dep. Phys., Univ. Illinois, Chicago, IL 60680 USA). Phys. Rev. B: Condesn. Matter v. 27(2) p.1458-61 (1983)
25. Phase diagrams for alkali metal graphite intercalation compounds. Millman, S.E., Kirczenow, G., Solenberger, D. (Dept. Phys., Boston Univ., Boston, MA, USA). J. Phys. C v. 15(36) p.LI269-76 (30 Dec. 1982)
26. Pressure-induced staging transitions in potassi~n-intercalated graphite (KC~): observation of a fractional stage. Fuerst, C.D., Fishcer, J_ET, Axe, J.D., Hastings, J.B., McWhan, D.B. (Lab. Res. Struct. Matter, Univ. Pennsylvania, Philadelphia, PA 19104 USA). Phys. Rev. Lett. v. 50(5) p.357-60 (1983)
27. Quantitative x-ray diffraction study of correlations between layers in graphite-ferric chloride compounds of the first and second stages.
(French) Rousseaux, F., Vangelisti, R., Plancon, A., Tchoubar, D. (Serv. Chim. Miner. Appl., Lab. Chim. Solide Miner., 54506 Vandoeuvre-les-Nancy, Fr.). Rev. Chim. Miner. v.19(4-5) p.572-87 (1982)
28. Scanning transmission electron microscopy of multiphases in graphite- alkali metal intercalation compounds. Mazurek, H., Dresselhaus, M.S., Dresselhaus, G. (Massachusetts Inst. Technol., Cambridge, MA 02139 USA). Carbon v.20(4) p.297-301 (1982)
29. Stoichiometry problems of the structure of graphite ternary composites: the systems graphite-potassium-tetrahydrofuran and graphite-potas- sium-furan. (French) Setton, R., Beguin, F. (Centre de Recherches sur les Solides a Organisation Cristalline Imparfaite, CNRS, Orleans, France), Jegoudez, J., Mazieres, C. Rev. Chim. Miner. v.19(4-5) p.360-70 (1982)
30. Study of the insertion of sulfur trioxide in graphite. (French) Yaddaden, A., Ladjadj, M., Vast, P. (Lab. Chim. Appl., Univ. Sci. Tech. Lille, 59665 Villeneuve-d'Ascq, Fr.). Rev. Chim. Miner v.19(4-5) p.602-Ii (1982)
33. Two-dimensional band structure and optical properties of graphite inter- calation compounds. (French) Saint Jean, M., Rigaux, C. (Groupe de Phys. des Solides, Ecole Normale Superieure, Paris, France). Rev. Chim. Miner. v. 19(4-5) p.521-33 (1982)
95
K.
i.
2.
Other related intercalation and layered compounds
Charge density wave commensurability in 2H-TaS 2 and AgxTaS~. Scholz, G.A., Singh, O., Frindt, R.F., Curzon, A.E. (Dept. of ~hys. & Energy R~s. Inst., Simon Fraser Univ., Burnaby, BC, Canada). Solid State Commun. v.44(I0) p.1455-9 (Dec. 1982)
Charge ordering of intercalated atoms under hydrostatic compression. (published in s~mmmry form only). Lukiyaneis, B.A. (Material Science Inst., Chernovtsy (USSR)). p.57 Max-Planck-lnstitut fure Festkoerperforschung, Stuttgart (Germany, F.R.). High pressure in. solid state physics. EHPRG final program. (nd). III p. Annual Meeting of the European High Pressure Research Group: High Pressure in Solid State Physics. Stuttgart (Germany, F.R.). Aug. 31-Sep. 02, 1982.
96
3. Conduction band structure determined from the g-values of the excitons in VI B transition metal dichalcogenides. Tanaka, M. (Lab. of Appl. Phys., Faculty of Engng., Yokohama Nat. Univ., Yokohama, Japan), Kuwabara, G., Fukutani, H. J. Phys. Soc. Jpn. v.51(12) p.3888-92 (Dec. 1982)
4. Crystal chemistry and superconductivity in lithium-intercalated niobium disulfide. McEwen, C.S., Sienko, M.J. (Baker Lab. of Chem., Cornell Univ., Ithaca, NY, USA). Rev. Chim. Miner. v.19(4-5) p.309-16 (1982)
5. Elasticity and thermal expansion of 2H-TaSe 2 between 4K and 130K. Simpson, A.M., Jericho, M.H. (Phys. Dept., Dalhousie Univ., Halifax, NS, Canada), DiSalvo, F.J. Solid State Con~aun. v.44(12) p.1543-6 (Dec. 1982)
6. Electrochemical behavior of graphite intercalation compounds of fluorine and metal fluorides. Nakajima, T., Kawaguchi, M., Watanabe, N. (Dep Ind. Chem., Kyoto Univ., Kyoto, Japan 606). Electrochim. Acta v.27(II) p.1535-8 (1982)
7. Electronic properties of intercalation compounds of the transition metal dichalcogenides. Friend, R.H. (Cavendish Lab., Cambridge Univ., Cambridge, England). Rev. Chim. Miner. v.19(4°5) p.467-84 (1982)
9. A hyperfine spectroscopic study of intercalation compounds of 2H-TaS2: charge transfer and reaction kinetics. Butz, T. (Phys.-Dept., Tech. Univ. Munchen, Garching, Germany), Lerf, A. Rev. Chim. Miner. v. 19(4-5) p.496-520 (1982)
I0. Information c~ the oxidation and irreversible phase transitions of ferricinium-iron oxychloride "intercalation compounds Fe(C5H5)o + (6-TFeOCl)e- with 57Fe labelled 57Fe(C5H5)2 ~ guest layers stuaies by Mossbauer effect. (German) Schafer-Sta~l, H. (Fakultat fur Chem., Univ. Konstanz, Konstanz, Germany) Mater. Res. Bull. v. 17(ii) p.1437-46 (Nov. 1982)
II. Intercalation in layered transition metal oxyhalides MOX. Rouxel, J., Palvadeu, P. (Lab. de Chim. duSolide LA, Nantes, France). Rev. Chim. Miner. v.19(4-5) p.317-32 (1982)
12. Intercalation phases of titanium disulfide, 2H-niobium disulfide, and IT-tantal~n disulfide with ethylenediamine and trimethylenediamine: a crystal, chemical and thermogravimetric study. Boller, H., Blaha, H. (Inst. Phys. Chem., Univ. Wien, A-1090 Vienna, Austria). J. Solid State Chem. v. 45(I) p. I19-26 (1982)
13. Layered cc~pounds formed by reactions of molybdenum and tungsten tri- oxides with pyridine and substituted pyridines. Johnson, J.W., Jacobsen, A.J., Rich, S.M., Brody, J.F. (Exxon Res. Eng. Co., Linden, NJ 07036 USA). Rev. Chim. Miner. v.19(4-5) p.420-31 (1982)
97
14. Lithium insertion in anatase: a new route to the spinel LiTi204. Murphy, D.W., Greenblatt, M., Zahurak, S.M., Cava, R.J., Waszczak, J.V., Hull, G.W.Jr., Hutton, R.S. (Bell Lab., Murray Hill, NJ 07974 USA). Rev. Chim. Miner. v.19(4-5) p.441-9 (1982)
15. Magnetic properties of the hydrazine intercalation complexes of IT-TaSk. Guy, D.R.P., Friend, R.H. (Cavendish Lab., Univ. of Cambriage, Cambridge, England), Harrison, M.R., Johnson, D.C., Sienko, M.J. J. Phys. C v.15(35) p. L1245-9 (20 Dec. 1982)
16. Magnetic susceptibility of hydrazine intercalated TiSe 2. Guy, D.R.P., Friend, R.H. (Cavendish Labs., Univ. of Cambridge, Cambridge, England), Johnson, D.C., Sienko, M.J. J. Phys. C v.15(35) p. L1251-5 (20 Dec. 1982)
17. Microvolt and millivolt spectroscopy of adsorbet and intercalated molecules by neutron spectroscopy. (published in su~nary form only). White, J.W. (Oxford Univ. (UK). Physical Chemistry Lab.). p.17 East Anglis Univ., Norwich (UK). European congress on molecular spectroscopy. Book of abstracts. 108 p. Sept. 7-11, 1981
18. Oxidation interaction and irreversible phase transitions between layers of ferricinium-iron oxichloride intercalates of the type Fe(CsH5)2 + (6-7FeOCl)e- with iron-57-1abeled ferrocene guest species during Moessbauer studies. (German) Schaefer-Stahl, H. (Fak. Chem., Univ. Konstanz, 7750 Konstanz, Fed. Rep. Get.). Mater. Res. Bull. v.17(ll) p.1437-46 (1982)
19. Positron annihilation in layered structures. Cartier, E., Heinrich, F., Pfluger, P., Guentherodt, H.J. (Lab. Solid State Phys., Swiss Fed. Inst. Technol., CH-8093 Zurich, Switz.). Positron Annihilation, Proc. Int. Conf., 6th p.607-12 (1982) Edited by Coleman, P.G., Sharma, S.C., Diana, L.M. North-Holland: Amsterdam, Neth.
20. Processes of the solid-phase s)mthesis of layered bismuth compounds. (Russian) Ospyan, V.G., Shitsa, D.A., Freidenfelds, E. (Rizh. Politekh. Inst., Riga, USSR). Izv. Sib. Otd. Akad. Nauk SSSR, Ser. Khim. Nauk v.(6) p.60-4 (1982)
21. Rechargeable lithium battery. (lithium intercalated into various dichalcogenides). Sanyo Electric Co., Ltd. Jpn. Kokai rokkyo Koho JP 57,212,773 (82,212,773) 3 pp. (27 Dec.1982)
22. Search for the charge density wave in solids by positrons: a 2H-tantalum diselenide crystal. Jean, Y.C. (Dep. Phys., Univ. Missouri, Kansas City, MO 64110 USA). Positron Annihilation, Proc. Int. Conf., 6th p.739-41 (1982) Edited by Coleman, P.G., Sharma, S.C., Diana, L.M. North-Holland: Amsterdam, Netherlands
23. Structural destabilization induced by lithiL~n intercalation in molyb- den~n disulfide and related compounds. Py, M.A., Haering, R.R. (Dep. Phys., Univ. British Col~nbia, Vancouver, BC Can. V6T 2A6). Can. J. Phys. v.61(1) p.76-84 (1983)
24. Structures and phase relations of compounds NaxTiS 2 and Na~TiSe 2. (intercalation compounds). Bouwmeester, H.J.MT, DekkeY, E.J.P.,
98
Bronsema, K.D., Haange, R.J., Wiegers, G.A. (Lab. of Inorganic Chem., Univ. of Groningen, Groningen, Netherlands) Rev. Chim. Miner. v.19(4-5) p.333-42 (1982)
25. Synchrotron-radiation photoemission study of the V-VI layered compounds Bi2Te~, Bi2Se3, Sb2Te and. Sb2Te. 2Se" Thuler, M.R., Benbow, R.L., Hurycn, Z. (Northern ~lllnols Unlv., De Kalb (USA). Dept. of Physics) Chem. Phys. v.71(2) p.265-270 (Oct. 1982)
26. Uptake of amino acids by zirconit~n phosphates. Part 2. Intercalation of L-histidine, L-lysine, and L-arginine by~-zirconium phosphate. Kijima, T., Uono, S., Goto, M. (Natl. Inst. Res. Inorg. Mater., Ibaraki, Japan 305). J. Chem. Soc., Dalton Trans. v.(12) p.2499-503 (1982)
27. Vanadium pentoxide gels: a versatile host structure for intercalation. Aldebert, P., Baffier, N., Legendre, J.J., Livage, J. (ENSCP, 75231 Paris, Fr.). Rev. Chim. Miner. v.19(4~5) p.485-95 (1982)
