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Bismuth-free Mg_(3)Sb_(2) with enhanced room-temperature thermoelectric and mechanical properties

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摘要 Thermoelectric materials are competitive candidates for special cooling applications.Mg_(3)Sb_(2)-based materials consisting of inexpensive ingredients have profound thermoelectric properties.At present,alloying with Mg_(3)Bi_(2) is the most effective approach to optimize the thermoelectric properties of Mg_(3)Sb_(2)-based materials.However,the extremely low abundance of bismuth in the crust contradicts its economic expectation.In this work,the ZrO_(2) micro-particles were separated into the Mg_(3.2)Sb_(1.99)Te_(0.01).The doping effect of Zr atoms at Mg sites increased the electrical conductivity,and the combined secondary phase lowered the lattice thermal conductivity.With acceptable degradation in the Seebeck coefficient,the sample combined with 5%(in mass)ZrO_(2) exhibited a dimensionless figure of merit(zT)of 0.49 and a power factor of 2.7 mW·m^(−1)·K^(−2) near room temperature.The average zT in the range from 300 K to 500 K reached 0.8,on par with the Mg_(3)Sb_(2) single bond Mg_(3)Bi_(2) alloys.Besides,the compressive and bending strengths reach 669 MPa and 269 MPa,respectively,far superior to the common room-temperature thermoelectrics.This secondary phase showed a surprising and uncostly promotion of the Mg_(3)Sb_(2)-based thermoelectric materials,impelling the realization of its commercial application.
出处 《Journal of Materiomics》 SCIE CSCD 2024年第5期1101-1108,共8页 无机材料学学报(英文)
基金 The work is funded by the National Natural Science Foundation of China(Nos.62174022,62104032,and 62225406) the Fundamental Research Funds for the Central Universities(No.ZYGX2022J027) the Department of Science and Technology of Sichuan Province(No.2022NSFSC0938,2022JDJQ0033,and 2021JDTD0030) the National Science and Technology Major Project(J2019-V-0006-0100).
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