By Martha Greenblatt (auth.), Claire Schlenker (eds.)
The heritage of low dimensional conductors is going again to the prediction, greater than 40 years in the past, by means of Peierls, of the instability of a one dimensional steel chain, resulting in what's identified now because the cost density wave nation. even as, Frohlich recommended that an "ideal" conductivity can be linked to the sliding of this cost density wave. in view that then, numerous sessions of compounds, together with layered transition steel dichalcogenides, quasi one-dimensional natural conduc tors and transition steel tri- and tretrachalcogenides were widely studied. The molybdenum bronzes or oxides were stumbled on or rediscovered as low dimensional conductors during this final decade. a large amount of paintings has now been played in this topic and it was once time to assemble a few overview papers in one ebook. even if this ebook is concentrated at the molybdenum bronzes and oxides, it has a much more common curiosity within the box of low dimensional conductors, on account that a number of of the molybdenum compounds supply, from our viewpoint, version structures. this is often the case for the quasi one-dimensional blue bronze, specifically as a result of availability of fine caliber huge unmarried crystals. This ebook is meant for scientists belonging to the fields of stable country physics and chemistry in addition to fabrics technological know-how. it's going to specifically be necessary to many graduate scholars fascinated by low dimensional oxides. it's been written by means of famous experts of low dimensional systems.
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Additional info for Low-Dimensional Electronic Properties of Molybdenum Bronzes and Oxides
R. D. Shannon, Acta Crystallogr. A32, 751 (1976). A. Santoro, M. Greenblatt, and W. H. McCarroll, unpublished data. M. Greenblatt, W. H. McCarroll, R. Niefeld, M. Croft, and J. V. Waszczak, Solid State Commun. 51,671 (1984). M. Greenblatt, K. V. Ramanujachary, W. H. McCarroll, R. Niefeld, and J. V. Waszczak, J. Solid State Chern. 59, 149 (1985). 15K for an electrolytically grown crystal, Ref. 131]. Y. Matsuda, M. Sato, M. Onoda, and K. Nakao, J. Phys. C: Solid State Phys. 19,6039 (1986). J. Dumas, C.
Perl off, PhD. Thesis (Brown University, 1969), p. 52. G. Travaglini, P. Wachter, J. Marcus, and C. Schlenker, Solid State Commun. 37, 599 (1981). S. landi, M. Bonville, C. Pepin, J. Marcus and C. Schlenker, Phys. Rev. B (submitted). R. E. Peierl, Quantum Theory of Solids (Clarendon, Oxford, 1955) p. 108. H. Frohlich, Proc. Roy. Soc. A223, 296 (1954). G. Gruner, Perspectives in Solid State Physics, to be published. See, for example, the series Physics and Chemistry of Materials with Layered Structures (ed.
45. 46. 47. 48. 49. 50. 51. 52. 53. 54. 55. 56. 57. 58. 59. 60. 61. 62. 63. 64. 65. 66. 67. 68. 69. 70. 71. 72. 73. 74. 75. -M. Reau, C. Fouassier, C. Gleitzer, and M. Parmentier, Bull. Soc. Chim. Fr. 479 (1970). -M. Reau, C. Fouassier, and P. Hagenmuller, 1. Solid State Chem. 1,326 (1970). -M. Reau, C. Fouassier, and P. Hagenmuller, Bull. Soc. Chim. Fr. 2883 (1971). W. H. McCarroll and M. Greenblatt, 1. Solid State Chem. 54,282 (1984). K. V. Ramanujachary, M. Greenblatt, and W. H. McCarroll, I.