Nh. Mousa et al., ELECTRICAL AND THERMOELECTRIC PROPERTIES OF CUINTE2 IN THE SOLID AND LIQUID-PHASES, Physics and chemistry of liquids, 33(2), 1996, pp. 113-120
Measurements of the electrical conductivity and thermoelectric power o
f CuInTe2 in the temperature range from 400 degrees C to 970 degrees C
shows that the thermoelectric power changes sign from positive in the
solid state to negative in the liquid state above its melting point.
The experimental data were explained on the basis of a model developed
for the density of states and electrical transport in solid amorphous
semiconductors [1]. The activation energy from electrical conductivit
y was found to be 0.31 ev for the solid and 0.79 ev for the liquid and
the coefficient of the linear decrease of the energy gap with tempera
ture was found to be 1.18 x 10(-4) ev/degrees K.