Thermoelectric properties of Ag(3)AuTe(2)

Electronic structure calculations predict Ag(3)AuTe(2) to be a small-band-gap semiconductor. Polycrystalline samples of the pure and doped materials have been synthesized, and the physical properties are reported. Thermoelectric power measurements indicate that pure Ag(3)AuTe(2) is a p-type material with a very large room-temperature Seebeck coefficient of 530 mu V/K. The thermal conductivity is very low, and at room temperature, is lower than that of the best thermoelectrics. The transport properties were found to be very sensitive to chemical doping and nonstoichiometry. Although samples made with excess Ag resulted in improved thermoelectric performance at higher temperatures (> 500 K), the large resistivity of these materials makes them noncompetitive with state-of-the-art thermoelectrics. (C) 2000 American Institute of Physics. {[}S0021-8979(00)06222-8].