Abstract
Quaternary Cu–Bi–Sb–Te alloys with general formula of Cu x Bi 0.5Sb 1.5− x Te 3 ( x = 0–0.4) were prepared by cold pressing and their thermoelectric performance was evaluated. It was found that both the electrical and thermal properties were closely related with the mole fraction x, i.e. Cu concentration. Superior electrical properties were obtained when mole fraction x was controlled to be 0.05 and 0.1. Not only can higher Cu content deteriorate the Seebeck coefficients (when x = 0.4), but also the electrical conductivities ( x ≥ 0.13), even though low thermal conductivities were obtained ( x = 0.4). A measurement showed that the maximum figure of merit ZT, corresponding to the alloys ( x = 0.05–0.1), is about 0.74, approximate 2.7 times that of state-of-the-art material Bi 0.5Sb 1.5Te 3 at 442 K.
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