A. Bolotov et al., Degenerated mixed cation effect, in CuI-AgI-As2Se3 glasses: Cu-64 and Ag-110 tracer diffusion studies, SOL ST ION, 115, 1998, pp. 697-701
In contrast to the usual behaviour of mixed cation glasses (large deviation
s from additivity with a pronounced minimum at the conductivity isotherms a
nd a diffusivity crossover when guest cations reduce the mobility of ions c
oming from the host material), the CuI-AgI-As2Se3 glassy system exhibits re
markable differences in the transport properties. First, the ionic conducti
vity increases monotonically by four orders of magnitude from 3 X 10(-8) to
5 X 10(-4) S cm(-1) when CuI is gradually replaced by AgI, without any min
imum at intermediate concentrations. Secondly, no diffusivity crossover was
observed. The Ag-110 tracer diffusion coefficient D-Ag follows the conduct
ivity isotherm with nearly the same changes in D-Ag of four orders of magni
tude, from approximate to 10(-12) cm(2) s(-1) to approximate to 10(-8) cm(2
) s(-1). The Cu-64 tracer diffusion coefficient D-Cu increases by a factor
of 20 to 30 when copper is substituted by silver. Moreover, the values of D
-Cu are always lower than D-Ag. The only exception is a 0.5CuI . 0.5As(2)Se
(3) glass, for which D-Ag and D-Cu are very similar. The results obtained c
an be described as a degenerated mixed cation effect with different trends
for silver and copper mobile cations. (C) 1998 Elsevier Science B.V. All ri
ghts reserved.