Combined neutron/X-ray diffraction, Ge and As K-edge extended X-ray absorption fine structure analysis, and Raman spectroscopy are employed to study the compositional dependence of the short- and intermediate-range structures of As-rich Ge(x)As(y)S(100-x-y) glasses with a constant Ge:As atomic ratio of 1:17.3. The structures of glasses with compositions near stoichiometry (35 <= x y <= 43) are dominated by the presence of a predominantly heteropolar-bonded As(2)S(3) network. However, an increasing metal content (x y = 55) results in a novel glass consisting predominantly of As(4)S(3) molecules, held together by van der Waals forces. The formation of this "molecular" glass implies an apparently anomalous situation of near-zero connectivity and dimensionality with increasing average coordination number. A further increase in metal content (60 <= x y <= 65) results in the formation of As-As homopolar-bonded structural regions that coexist with As(4)S(3) molecules. Such unusual evolution of intermediate-range order is shown to be closely related to the compositional variation of thermophysical properties and density fluctuation in these glasses.

• 出版日期2009-4-16