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Electronic Properties of Transition Metal Dichalcogenides and Their Intercalation Complexes

  • W. Y. Liang
Part of the NATO ASI Series book series (NSSB, volume 148)

Abstract

The transition metal dichalcogenides and their intercalate complexes belong to a large class of the so-called two-dimensional solids in which there is a good deal of interest at present. They are called two dimensional because they are formed in layered structures. Atoms within a layer are bound by strong covalent or ionic forces while individual layers are held together by relatively much weaker forces. The latter are frequently referred to as “van der Waals” type of interactions, though some contributions from covalent and ionic interaction are also possible, particularly in the intercalate complexes.

Keywords

Fermi Surface Transition Metal Dichalcogenides Intercalation Complex Poly Type Trigonal Distortion 
These keywords were added by machine and not by the authors. This process is experimental and the keywords may be updated as the learning algorithm improves.

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References

  1. Acrivos, J.V., 1979, “Intercalated Layer Materials”, Vol. 6, ed. Levy, F., Dodrecht Reidel Ch. 2, 33.Google Scholar
  2. Anderson, O., Karschnick, F., Manzke R. and Skibowski, M., 1985, Sol. St. Comm. 53, 339.CrossRefGoogle Scholar
  3. Bagnall, A.G., Liang, W.Y., Marseglia, E.A., and Welber, B., 1980, Physica 99b, 343.Google Scholar
  4. Barry, J.J and Hughes, H.P., 1982, J. Phys. C 15., L797.Google Scholar
  5. Basu, S. and Worrell, W.L., 1979, “Fast ion Transport in Solids”, ed. Vashishta, P., Mundy, J.N. and Shenay G.K., Elsevier, N. Holland.Google Scholar
  6. Bayliss, S.C., Ghorayeb, A.M., Guy, D.R.P., 1984, J,Phys C, 17, L533.CrossRefGoogle Scholar
  7. Bell, M.G. and Liang, W.Y., 1976, Adv. Phys., 25, 53.CrossRefGoogle Scholar
  8. Bernard, L., Glausinger, W. and Colombetm P. 1985, Sol.St. Ionics 17, 81.CrossRefGoogle Scholar
  9. Boebinger, G.S., Wakefield, N.I.F., Marseglia, E.A., Friend, R.H., and Tatlock, G.J., 1983 Physica 117B, 608.Google Scholar
  10. Bonino, F., Lazzari, M., Vincent, C.A. and Wandless, A.R., 1980, Sol. St. Ionics 1, 311.CrossRefGoogle Scholar
  11. Brec, R. and Ouvrard, F., 1983, Sol,. St. Ionics 9,10, 481.Google Scholar
  12. Brouwer, R. and Jellinek, F., 1976, 5th Int. Conf. on Solid Compounds of Transition Elements, Upsala, Sweden.Google Scholar
  13. Brouwer, R. and Jellinek, F., 1980, Physica 99B, 51.Google Scholar
  14. Chan, S.K. and Heine, V., 1973, J. Phys. F3, 795.CrossRefGoogle Scholar
  15. Chen, C.H., Gibson, J.M. and Fleming, R.M., 1982, Phys. Rev. B26, 184.Google Scholar
  16. Chianelli, R.R., Scanlon, J.C. and Rao, B.M.L., 1978, J. Chem. Society, 125, 1563Google Scholar
  17. Clarke, R. and Uher, C., 1984, Adv. Phys. 33, 469.CrossRefGoogle Scholar
  18. Coleman, R.V.and Hillenius, S.J., 1981Google Scholar
  19. Dines, M.B., 1975, Science 188, 1210.CrossRefGoogle Scholar
  20. Dines,M.B., 1978 Inorg. Chem 17, 762 763;CrossRefGoogle Scholar
  21. Dines,M.B., 1978 Mat. Res. Bull 10, 287.CrossRefGoogle Scholar
  22. Di Salvo, F.J. and Geballe, T.H., 1971, Science 174 493.Google Scholar
  23. Di Salvo, F.J., Moncton, D.E. and Waszczak, J.W., 1976, Phys. Rev. B14, 4321.Google Scholar
  24. Di Salvo, F.J., Moncton, D.E., Wilson, J.A. and Mahajan, S., 1976b, Phys. Rev. B14, 1543.Google Scholar
  25. Di Salvo, F.J., 1977, “Electron Phonon Interactions and Phase Transitions”, ed. Riste, T. Plenum - NY, 107.CrossRefGoogle Scholar
  26. Doran, N.J., Ricco, B., Schreiber, M., Titterington, D. and Wexler, G., 1978, J. Phys. C 11, 689.Google Scholar
  27. Dresselhaus, M.S. and Dresselhaus, F., 1981, Adv. Phys., 30, 139.CrossRefGoogle Scholar
  28. Dresselhaus, M.S., Dresselhaus, G., Fischer, J.E. and Moran, M.J., 1983, Materials Research Society, Intercalated graphite: North Holland N.Y. 20.Google Scholar
  29. Fazekas, P. and Tosatti, E., 1979, Phil. Mag. B39, 229.CrossRefGoogle Scholar
  30. Folinsbee, J.T., Jericho, M.H., March, R.H. and Tindal, D.A., 1981, Can. J. Phys. 59, 1267.CrossRefGoogle Scholar
  31. Friend, R.H., Beal, A.R. and Yoffe, A.D., 1977, Phil. Mag., 35, 1269.CrossRefGoogle Scholar
  32. Friend, R.H., Jerome, D., Frindt, R.F., Grant, A.J. and Yoffe, A.D., 1977, J. Phys. C 10, 1013CrossRefGoogle Scholar
  33. Frohlich, H., 1955, Proc. Roy. Soc., A223, 296.Google Scholar
  34. Friend, R.H., Jerome, D., Schliech, D.M. and Molinie, P., 1978, Sol. St. Comm. 27, 169.CrossRefGoogle Scholar
  35. Friend, R.H. and Jerome, D., 1979, J. Phys. C 12, 1441.CrossRefGoogle Scholar
  36. Friend, R.H., Jerome, D. and Yoffe, A.D., 1982, J. Phys. C 15, 2183.CrossRefGoogle Scholar
  37. Frindt, R.F., 1972, Phys. Rev. Lett. 28, 299.CrossRefGoogle Scholar
  38. Fung, K.K., McKernon, S., Steeds, J.W. and Wilson, J.A., 1981, J. Phys. C 14, 5417.CrossRefGoogle Scholar
  39. Gamble, F.R. and Geballe, T.H., 1976, “Treatise on Solid State Chemistry, Inclusion Compounds”, Plenum N.Y. 3, Ch. 3.Google Scholar
  40. Gamble, F.R. and Thompson, A.H., 1978, Sol. St. Comm. 27, 379.CrossRefGoogle Scholar
  41. Gerhards, A.G., Roede, H., Haange, R.J., Boukamp, B.A. and Wiegers, G.A., 1984, Synthetic Metals 10, 51.CrossRefGoogle Scholar
  42. Ghorayeb, A.M., Coleman, C.C. and Yoffe, A.D., 1984, J. Phys. C17, L715.Google Scholar
  43. Ghorayeb, A.M., 1985, PhD dissertation, Cambridge.Google Scholar
  44. Guo, G.Y. and Liang, W.Y., 1986, J.Phys. C, 19, 995.CrossRefGoogle Scholar
  45. Hallak, H.A. and Lee, P.A., 1983, Sol. State Comm. 47, 503.CrossRefGoogle Scholar
  46. Hambourger, P.D. and Di Salvo, F.J., 1980, Physica 99B 173.Google Scholar
  47. Hibma, T., 1980, Sol. St. Comm. 33, 445.CrossRefGoogle Scholar
  48. Hibma, T., 1982, Intercalation Chemistry, ed. Whittingham, M.S. and Jacobson, A.J. Academic Press. Hughes, H.P. and Pollak, R.A., 1976, Phil. Mag. 34, 1025.Google Scholar
  49. Hughes, H.P., 1977, J. Phys. C 10, L319.CrossRefGoogle Scholar
  50. Hughes, H.P. and Friend, R.H., 1978, J. Phys. C 11, L103.CrossRefGoogle Scholar
  51. Hulliger, F., 1976, “Structural Chemistry of Layer-type” Phases, ed. Levy, F., Dodrecth Reidel, Vol. 5.Google Scholar
  52. Johnson, M.T., Starnberg, H.I. and Hughes, H.P., 1986, J. Phys. C, 19, L451.CrossRefGoogle Scholar
  53. Johnson, W.B. and Worrell, W.L., 1982, Synthetic Metals 4, 225.CrossRefGoogle Scholar
  54. Johnston, N.A. and Scholl, C.A., 1984, J.Phys. C, 17, L73.CrossRefGoogle Scholar
  55. Klemm, R.A., Luther, A. and Beasley, M.R., 1975, Phys. Rev. B12, 877.Google Scholar
  56. Klipstein, P.C., Bagnall, A.G., Liang, W.Y., Marseglia, E.A. and Friend, R.H., 1981, J. Phys. C 14, 4067.CrossRefGoogle Scholar
  57. Klipstein, P.C., Guy, D.R.P., Marseglia, E.A., Meakin, J.I., Friend, R.H. and Yoffe, A.D., 1986, J. Phys. C (in press).Google Scholar
  58. Klipstein, P.C., Pereira, C.M. and Friend, R.H., 1984, NATO ASI., ed. Acrivos, J.V., Leonelli, R., Plischke, M. and Irwin, J.C., 1980, Phys. Rev. Lett. 45., 1291.Google Scholar
  59. Levy, F., 1979, “Intercalated Layer Materials”, ed. Levy, F., Dodrecht Reidel, Vol. 6.CrossRefGoogle Scholar
  60. Liang, W.Y., 1984, “Physics and Chemistry of Electrons and Ions in Condensed Matter”, NATO ASI 130, Dodrecht Reidel, 459.Google Scholar
  61. McKinnon, W.R., Dahn, J.R., Levy-Clement, C., 1984, Sol. St. Comm. 50, 101.CrossRefGoogle Scholar
  62. McMillan, W.L., 1975, Phys. Rev. B12 1187 and 1197.Google Scholar
  63. McMillan, W.L., 1976, Phys. Rev. B14, 1496.Google Scholar
  64. Marseglia, E.A., 1983, Int. Rev. Phys. Chem. 3, 177.CrossRefGoogle Scholar
  65. Monceau, P., 1985, “Electronic Properties of Inorganic Quasi-one Dimensional Materials II”, 139–268, publ. D. Reidel.Google Scholar
  66. Moncton, D.E., Axe, J.D. and Di Salvo, F.J., 1977, Phys. Rev. B16, 801.Google Scholar
  67. Moncton, D.E., Di Salvo, F.J. and Davey, S.C., 1979, Bull. Am. Phys. Soc. 24, 446.Google Scholar
  68. Motizuki, K. Suzuki, N., Yoshida, Y. and Takaoka, Y., 1981, S. State Comm. 40, 995.Google Scholar
  69. Murphy, D.W., Di Salvo, F.J., Hull, G.W. and Waszczak, J.V., 1976, Inorg. Chem. 15, 17.CrossRefGoogle Scholar
  70. Myron, H.W., Rath, J. and Freeman, A.J., 1977, Phys. Rev. B15, 885.Google Scholar
  71. Parkin, S.S.P. and Beal, A.R., 1980, Phil. Mag. B42, 627.CrossRefGoogle Scholar
  72. Parkin, S.S.P. and Friend, R.H., 1980, Physica 99B, 219; Phil. Mag. B41, 65, 95.Google Scholar
  73. Peierls, R.E., 1955, Quantum Theory of Solids, OUP.Google Scholar
  74. Pereira, C.M., 1984, Ph.D. Dissertation, University of Cambridge.Google Scholar
  75. Pereira, C.M. and Liang, W.Y., 1985, J. Phys. C 18, 6075.CrossRefGoogle Scholar
  76. Py, M.A. and Haering, R.R., 1983, Can. J. Phys. 61, 76.CrossRefGoogle Scholar
  77. Riekel, C., Hohlwein, D. and Schollhorn, R., 1976, Chem. Comm. 863.Google Scholar
  78. Rouxel, J., 1978, “Intercalated Layer Materials”, ed. Levy, F., Dodrecht Reidel, Vol. 6, 210.Google Scholar
  79. Sarma, M., Beal, A.R., Nulsen, S. and Friend, R.H., 1982, J. Phys. C15, 477, 4367.Google Scholar
  80. Schollhorn, R., Sick, E. and Weiss, A., 1973, Zeit fur Naturforsch 28b, 168.Google Scholar
  81. Schollhorn, R., 1980, Physica 99B 89; 1982, Intercalation Chemistry, ed. Whittingham, M.S. and Jacobson, A.J., Academic Press N.Y., Ch. 10, 315.Google Scholar
  82. Scholz, G.A. and Frindt, R.F., 1980, Mat. Res. Bull. 15,, 1703.Google Scholar
  83. Shen, T.H., and Liang, W.Y., 1983, J.Phys C, 16, L883.CrossRefGoogle Scholar
  84. Shen, T.H., 1985, Private Communication.Google Scholar
  85. Smith, N.V., Kevan, S.D. and Di Salvo, F.J., 1985, J. Phys. C18 3175.Google Scholar
  86. Subba Rao, G.V. and Shafer, M.S., 1979, “Intercalated Layer Materials”, ed. Levy, F, Dodrecht Reidel, Vol. 1, 6, 99.Google Scholar
  87. Suter, R.M., Shafer, M.W., Horn, P.M. and Dimon, P., 1982, Phys. Rev. B26, 1495.Google Scholar
  88. Suzuki, N.;, Yamamoto, A. and Motizuki, M., 1984, Sol. State Comm. 49, 1039.CrossRefGoogle Scholar
  89. Suzuki, N., Yamamoto, A. and Motizuki, M., 1986, J. Phys. Soc. Jap. (in press).Google Scholar
  90. Tatlock, G.J., 1976, Commun. Phys. 1, 87. Thompson, A.H., 1978, Phys. Rev. Lett. 40, 1511.Google Scholar
  91. Tigchelaar, D., Wiegers, C.A. and Van Bruggen, C.F., 1982, Rev. Chim. Min. 19, 352.Google Scholar
  92. Traum, M.M., Smith, N.V. and Di Salvo, F.J., 1974, Phys. Rev. Lett. 32, 1241.CrossRefGoogle Scholar
  93. Tsutsumi, K., 1982, Phys. Rev. B26, 5756.Google Scholar
  94. Wada, S., Alloul, H. and Molinie, P., 1978, J. Physique Lett., 39, L243.CrossRefGoogle Scholar
  95. Wertheim, G.K., Di Salvo, F.J. and Chiang, S., 1975, Phys. Lett. 54A, 304.Google Scholar
  96. Wertheim, G.K., Di Salvo, F.J. and Chiang, S., 1976, Phys. Rev. B13, 5476.Google Scholar
  97. White, R.M. and Lucovsky, G., 1977, Nuovo Cim. B38, 280.CrossRefGoogle Scholar
  98. Whittingham, M.S., 1977, “Solid Electrolytes”, ed. Van Gool, W. and Hagenmuller, P., Wiegers, G.A., 1980, Physica 99B, 151.Google Scholar
  99. Williams, P.M., Parry, G.S. and Scruby, C.B., 1974, Phil. Mag. 29, 695;CrossRefGoogle Scholar
  100. Williams, P.M., Parry, G.S. and Scruby, C.B., 1975, Phil. Mag. 31, 255.CrossRefGoogle Scholar
  101. Wilson, J.A. and Yoffe, A.D.,1969, Adv. Phys., 18, 193.Google Scholar
  102. Wilson, J.A., Di Salvo, F.J. and Mahajan, S., 1974, Phys. Rev. Lett. 32, 882;CrossRefGoogle Scholar
  103. Wilson, J.A., Di Salvo, F.J. and Mahajan, S., 1975, Adv. Phys. 24, 117.CrossRefGoogle Scholar
  104. Wilson, J.A. and Mahajan, S., 1976, Commun. in Phys. 2, 23.Google Scholar
  105. Yoshida, Y. and Motizuki, K., 1980, J. Phys. Soc. Jap. 42, 898.Google Scholar

Copyright information

© Springer Science+Business Media New York 1986

Authors and Affiliations

  • W. Y. Liang
    • 1
  1. 1.Cavendish LaboratoryCambridgeUK

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