Transport Properties of Superionic Conducting Glasses (AgX)_0.4(Ag₂O)_0.3(GeO₂)_0.3 (X=I, Br, Cl)

Abstract

In order to identify the dominant mechanism of ionic conduction, the electrical conductivity and ionic mobility of the glasses (AgX)_0.4(Ag₂O)_0.3(GeO₂)_0.3 (X=I, Br, Cl) were measured separately in the temperature range from 293 to 393 K by coupling the AC technique with the TIC method. Electronic conductivity was also measured at 293 K by the Wagner polarization method. The total electrical conductivity of these glasses was found to be as high as 10^-1 Ømega^-1 m^-1, and the mobility about 10^-6 m² V^-1 s^-1. The variation of total electrical conductivity and mobility at constant temperature and composition with the type of halide occurred in the sequence, Cl23 m^-3 at 293 K, and it was insensitive to the type of halide as well as temperature. The results suggest that the change in ionic conductivity with the temperature and the type of halide present is mainly attributable to the change in ionic mobility rather than carrier concentration. Moreover, the electronic conductivity was found to be about 10^-6 Ømega^-1 m^-1 at 293 K. Thus, the electronic contribution to the total conductivity is negligibly small.