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Enhancing thermoelectric properties of p-type (Bi,Sb)2Te3 via porous structures
Affiliation:1. State Key Laboratory of Superhard Materials, College of Physics, Jilin University, Changchun, Jilin Province, 130012, China;2. Department of Physics and Engineering Physics, Morgan State University, Baltimore, MA, 21251, USA
Abstract:Bismuth telluride is a widely used commercial thermoelectric material with excellent thermoelectric performances near room temperature. Reducing thermal conductivity is one of the most effective ways to improve performances of thermoelectric materials. In this study, the thermal conductivity of the material was reduced by fabricating porous structures. Highly dense NaCl-(Bi,Sb)2Te3 composites were fabricated by a high-pressure technology. The NaCl phase was then removed from the composites by ultrasonic washing to produce porous structures. The produced (Bi,Sb)2Te3 porous materials possessed excellent thermoelectric properties. The porosity and pore size of the (Bi,Sb)2Te3 porous materials increased with the increasing NaCl content, decreasing the thermal conductivity significantly. An ultra-low lattice thermal conductivity of 0.21 Wm?1K?1 at 493 K was achieved when the porosity was 39%, almost the lowest lattice thermal conductivity reported for (Bi,Sb)2Te3 bulk materials. The figure of merit ZT value was enhanced to 1.05 at 493 K when the porosity was 25%. Compared with the most compacted samples (ZT = 0.79 and porosity of 10%) prepared under the same conditions, the ZT value of the porous samples increased by 33%. This study indicated that porous thermoelectric materials can be prepared simply, quickly and efficiently by high-pressure/ultrasonication washing to improve thermoelectric performances, which has evident reference values for preparing other thermoelectric pore materials with enhancing behaviors.
Keywords:Thermoelectricity  Porous material  Bismuth antimony telluride  Thermal conductivity  High pressure sintering
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