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Achieving high average power factor in tetrahedrite Cu12Sb4S13 via regulating electron-phonon coupling strength
Yan, Yanci1,2,3; Li, Nanhai2,3; Wang, Guiwen4; Xiong, Qihong2,3; Fan, Lizhu2,3; Jiang, Pengfei5; Lu, Xu2,3; Wang, Guoyu6; Zhou, Xiaoyuan2,3,4
2022
摘要Lattice anharmonicity usually leads to low lattice thermal conductivity and thus is favored by thermoelectrics. However, if the anharmonicity is driven by strong lattice distortion, it is possible that the strong coupling between electrons and phonons would result in low carrier mobility. Yet, the fundamental physics of the competition between anharmonicity and mobility is not fully understood. In this study, taking thermoelectric tetrahedrite Cu12Sb4S13 as example, we try to elucidate such mechanism experimentally by analyzing electrical transport and local chemical bonding environment. It is found that substituting Sb with Sn can effectively suppress the local vibrational amplitude of Cu atoms, which is the origin of anharmonicity. As a result, electron-phonon coupling strength is regulated as well as the electrical conductivity and Seebeck coefficient are spontaneously promoted, leading to a substantially enhanced average power factor by more than 60%. Combined with the suppressed of electron-phonon coupling strength and exsolution process, a maximum zT of 1.1 at 723 K is achieved. These findings shed some light on the relationship between anharmonicity and carrier mobility, further emphasizing the importance of considering electron-phonon coupling for designing novel thermoelectric materials. (C) 2021 Elsevier Ltd. All rights reserved.
关键词Anharmonicity Carrier mobility Electron-phonon coupling Tetrahedrties Thermoelectrics
DOI10.1016/j.mtphys.2021.100590
发表期刊MATERIALS TODAY PHYSICS
ISSN2542-5293
卷号22页码:9
通讯作者Lu, Xu(luxu@cqu.edu.cn) ; Wang, Guoyu(guoyuw@cigit.ac.cn) ; Zhou, Xiaoyuan(xiaoyuan2013@cqu.edu.cn)
收录类别SCI
WOS记录号WOS:000752565600006
语种英语