Abstract
A phenomenological justification is proposed for the model of a molten cationic sublattice. The minimum ionic conductivity of the vitreous solid electrolyte is estimated. Special emphasis is given to the problem of interaction between the cationic and anionic sublattices in the course of ion transfer.
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REFERENCES
Ivanov-Shits, A.K. and Murin, I.V., Ionika tverdogo tela (Solid State Ionics), St. Petersburg: St. Petersburg. Gos. Univ., 2000, vol.1.
Martin, S.W., Ionic Conductivity in Optimized Chalcogenide FAC Glasses, Extended Abstracts of XI International Symposium “Non-Oxide and New Optical Glasses,” Sheffield (UK), 1998, pp. 125-130.
Bal'makov, M.D., Information Capacity of Condensed Systems, Usp. Fiz. Nauk, 1999, vol. 169, no. 11, pp. 1273-1280 [Phys. Usp. (Engl. transl.), 1999, vol. 42, no. 11, pp. 1167-1173].
Kvasnikov, I.A., Termodinamika i statisticheskaya fizika. Teoriya neravnovesnykh sistem (Thermodynamics and Statistical Physics: The Theory of Nonequilibrium Systems), Moscow: Mosk. Gos. Univ., 1987.
Glazov, V.M., Chizhevskaya, S.N., and Glagoleva, N.N., Zhidkie poluprovodniki (Liquid Semiconductors), Moscow: Nauka, 1967.
Tverjanovich, A., Calculation of Viscosity of Chalcogenide Glasses near Glass Transition Temperature from Heat Capacity or Thermal Expansion Data, J. Non-Cryst. Solids, 2002, vol. 298, pp. 226-231.
Mott, N.F. and Gurney, R.W., Electronic Process in Ionic Crystals, Oxford, 1948.
Frenkel, Ya.I., Kineticheskaya teoriya zhidkosti (The Kinetic Theory of Liquid), Moscow: Akad. Nauk SSSR, 1945.
Tver'yanovich, Yu.S., Aleksandrov, V.V., Murin, I.V., and Nedoshovenko, E.G., Glassforming Ability and Cationic Transport in Gallium-Containing Chalcogenide Glasses, J. Non-Cryst. Solids, 1999, vols. 256-257, pp. 237-241.
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Tver'yanovich, Y.S., Tverjanovich, A.S., Murin, I.V. et al. On the Possible Existence of Vitreous Solid Electrolytes with a Molten Cationic Sublattice. Glass Physics and Chemistry 29, 137–139 (2003). https://doi.org/10.1023/A:1023450907772
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DOI: https://doi.org/10.1023/A:1023450907772