Abstract
The structures of some chalcogenide glasses of interest due to their reversible threshold swithching (Si 18Ge 7As 35Te 40) and memory switching (Ge 15Te 81Sb 2S 2 and Ge 24Te 72Sb 2S 2) properties have been examined in terms of the chemical bonds expected to be present in these materials. Using simple considerations based on coordination numbers and bond energies, the average number of near neighbors of each type expected to surround a given central atom has been estimated. These average numbers of bonds have been used to estimate the cohesive energies of these glasses, assuming simple additivity of bond energies. The results of these calculations can be used to rationalize the observed switching properties of these materials, as well as to suggest criteria for selecting other materials with desirable properties.
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