Abstract
Abstract Electrical conductivity data (from 200 to 360 K) on fifteen glass compositions of the AsAgTe system are reported and discussed. The glasses were prepared using a two-stage melt-quenching method. For the (As2Te3)1−xAgx glasses, features are seen in the electronic properties, corresponding to a change in the role of Ag from a dopant (for Ag ≤ 1 at.%), to a constituent (for Ag > 1 at.%.). At this composition, step-like changes occur, in the activation energy for electrical conductivity and in the pre-exponential factor. Examination of the data indicate that, as a dopant, Ag acts as neutral scattering centres for charge carriers. As a constituent, Ag enhances the hopping channel for conductivity near the valence band edge.
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