Thermoelectric properties of vacuum melted Zn<inf>4−x</inf>Co<inf>x</inf>Sb<inf>3</inf> compounds

Abstract

The effect of Co substitution for Zn on the thermoelectric properties of beta-Zn4Sb3 was investigated to optimize the relatively low electrical conductivity and Seebeck coefficient. Zn4-xCoxSb3 compounds with times=0.1~0.5 were prepared by vacuum melting the metal elements at 1173 K in quartz tube and subsequent homogenization annealing of air cooled ingots at 673 K. Microstructures analyzed by XRD and variation of thermoelectric properties with amounts of Co substitution showed that Co substitution over times=0.3 resulted in the formation of CoSb3 phase. Seebeck coefficient and electrical resistivity of Co substituted Zn4Sb3 increased with increasing temperature, showing metallic conduction. As Co substitution amounts increased, both electrical resistivity and Seebeck coefficient decreased, reached minimum value around times=0.3, and then increased. But thermal conductivity increased with increasing substituted Co. This behavior of thermoelectric properties is believed to be resulted from the formation of CoSb3 phase over times=0.3.