Abstract
Zirconium diselenide belongs to the IVB group transition metal dichalcogenides which have lamellar structures and easily intercalate metals and molecules. From optical measurements (Lee et al., 1969) it appears as a semiconductor with a 1.2 eV energy gap. But from the Gleizes and Jeannin work (1970), it is known that zirconium diselenide does not exist as a stoichiometric compound but as ZrSey with 1.85 < y < 1.95.
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References
Armand M. (1978) Thesis, university of Grenoble. (1979) in “Fast Ion Transport in Solids”, P. Vashishta, J.N. Mundy and G.K. Shenoy eds., p.131, North-Holland, N.Y. (1980) in “Materials for Advanced Batteries”, Murphy D.W. Brodhead J. and Steele B.C. eds. p.145, Plenum Press, N.Y.
Berthier C., Chabre Y., Ségransan P., Chevalier P., Trichet L. and Le Méhauté A., (1981) Solid State Ionics, 5, 379.
Berthier C., Chabre Y., Ségransan P., Deniard P., Trichet L. and Rouxel J. (1984) in “Physics and Chemistry of Electrons and Ions in Condensed Matter” J.V. Acrivos, N.F. Mott and A.D. Yoffe eds. NATO ASI Series, C130, 561, D. Reidel, Dordretch.
Chabre Y., Deniard P. and Yazami R. (1987), presented at the sixth International Meeting on Solid State Ionics, Garmisch (D), 1987 and to appear in Solid State Ionics.
Dahn J.R., Mc. Kinnon W.R. and Lévy-Clément C., (1985) Solid State Comm., 54, 245.
Deniard P., Chevalier P., Trichet L., Chabre Y. and Pannetier J., (1987) Sol. State Comm., 64, 2, pp 175–180.
Gleizes A. and Jeannin Y., (1970) J. Solid State Chem., 1, 180.
Klipstein P.C., (1983) Ph.D. Thesis, university of Cambridge.
Klipstein P.C., Pereira CM. and Friend R.H., (1984) see Berthier (1984), NATO ASI Series, C130. 545.
Lee P.A., Said G., Davis R. and Lim T.H. (1969) J. Phys. Chem. Sol., 30, 2719.
Onuki Y., Inada R., Tanuma S., Yamanaka S. and Kamimura H., (1982) J. Phys. Soc. Japan, 51, 880.
Onuki Y., Inada R., Tanuma S., Yamanaka S. and Kamimura H., (1983) Solid State Ionics 8, 141.
Onuki Y., Hirai T., Shibutani K. and Komatsubara T., (1984) J. Inc. Phen., 2, 279.
Thompson A.H., (1978) Phys. Rev. Lett. 40, 1511.
Thompson A.H., (1979) in “Fast Ion Transport in Solids”, P. Vashishta, J.N. Mundy and G.K. Shenoy eds., p.47, North-Holland, N.Y.
Yazami R., (1987), in this NATO ASI Series volume.
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Deniard, P., Trichet, L., Chabre, Y. (1987). Influence of the zirconium diselenide stoichiometry on its behaviour upon lithium intercalation. In: Legrand, A.P., Flandrois, S. (eds) Chemical Physics of Intercalation. NATO ASI Series, vol 172. Springer, Boston, MA. https://doi.org/10.1007/978-1-4757-9649-0_27
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DOI: https://doi.org/10.1007/978-1-4757-9649-0_27
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