Physics – Condensed Matter – Materials Science
Scientific paper
2012-04-07
Progress in Crystal Growth and Characterization of Materials, Vol 52, Issues 1-2, 2006, Pages 46-52
Physics
Condensed Matter
Materials Science
Presented in the "National Symposium on Advances in Material Science" held at Gorakhpur, India during 17-19 March 2005
Scientific paper
10.1016/j.pcrysgrow.2006.03.008
Mechanochemically synthesized amorphous 50SISOMO [50AgI-25Ag_2O-25MoO_3] fast ionic conductor shows high ionic conductivity of ~ 6x10^-3 {\Omega}^-1 cm-1 at room temperature. The highest ionic conductivity is achieved for 36 h milled sample, which is more than three orders of magnitude higher than that of crystalline AgI at room temperature. The samples are thermally stable at least up to ~70 {\deg}C. Thermoelectric power studies on 50 SISOMO amorphous fast ionic conductors (a-SIC) have been carried out in the temperature range 300-330K. Thermoelectric power (S) is found to vary linearly with the inverse of the absolute temperature, and can be expressed by the equation -S = [(0.19 \times 10^3/T) + 0.25] mV/K. The heat of transport (q*) of Ag+ ion i.e. 0.19 eV is nearly equal to the activation energy (E) i.e. 0.20 eV of Ag+ ion migration calculated from the conductivity plots indicating that the material has an average structure. This is also in consonance with earlier theories on heats of transport of ions in ionic solids.
Dayal Saurabh
Shahi K.
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