Progressive Regulation of Electrical and Thermal Transport Properties to High‐Performance CuInTe2 Thermoelectric Materials |
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Authors: | Yubo Luo Junyou Yang Qinghui Jiang Weixin Li Dan Zhang Zhiwei Zhou Yudong Cheng Yangyang Ren Xu He |
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Institution: | State Key Laboratory of Materials Processing and Die & Mould Technology, Huazhong University of Science and Technology, Wuhan, P. R. China |
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Abstract: | p‐type CuInTe2 thermoelectric (TE) materials are of great interest for applications in the middle temperature range because of their environmentally benign chemical component and stable phase under operating temperatures. In order to enhance their TE performance to compete with the Pb based TE materials, a progressive regulation of electrical and thermal transport properties has been employed in this work. Anion P and Sb substitution is used to tune the electrical transport properties of CuInTe2 for the first time, leading to a sharp enhancement in power factor due to the reduction of electrical resistivity by acceptor doping and the increase of the Seebeck coefficient resulted from the improvement of density of states. Concurrently, In2O3 nanoinclusions are introduced through an in situ oxidation between CuInTe2 and ZnO additives, rendering a great reduction in the thermal conductivity of CuInTe2 by the extra phonon scattering. Then, by integrating the anion substitution and nanoinclusions, a high power factor of 1445 μW m?1 K?2 and enhanced ZT of 1.61 at 823 K are achieved in the CuInTe2 based TE material. This implies that the synergistic regulation of electrical and thermal transport properties by anion substitution and in situ nanostructure is a very effective approach to improve the TE performance of CuInTe2 compounds. |
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Keywords: | thermoelectrics CuInTe2 chalcopyrite nanoinclusions synergistic regulation |
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