Achieving high thermoelectric quality factor toward high figure of merit in GeTe

In recent years, GeTe has received tremendous attention from the research community due to its favorable electronic and thermal properties which make it one of the best performing thermoelectric compounds. In many reports, high performance has often been achieved via various doping/alloying methods,...

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Bibliographic Details
Main Authors: Ady Suwardi, Cao, Jing, Zhao, Yunshan, Wu, Jing, Chien, Sheau Wei, Tan, Xian Yi, Hu, Lei, Wang, Xizu, Wang, Weide, Li, Dengfeng, Yin, Yan, Zhou, Wu-Xing, Repaka, D. V. Maheswar, Chen, Jingsheng, Zheng, Yun, Yan, Qingyu, Zhang, Gang, Xu, Jianwei
Other Authors: School of Materials Science and Engineering
Format: Article
Language:English
Published: 2021
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Online Access:https://hdl.handle.net/10356/148447
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Institution: Nanyang Technological University
Language: English
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Summary:In recent years, GeTe has received tremendous attention from the research community due to its favorable electronic and thermal properties which make it one of the best performing thermoelectric compounds. In many reports, high performance has often been achieved via various doping/alloying methods, which typically involve more than one type of dopants. In contrast to the widely used co-doping strategies, this work only uses a minute amount of 1% doping, giving rise to one of the highest quality factor (1.30) at 673 K amongst GeTe, with a corresponding zT of 1.5. The high performance is attributed to simultaneously improved electronic properties via carrier concentration optimization as well as reduced thermal conductivity via additional phonon scattering brought about by In-mass fluctuations. More importantly, we elucidate on the importance of preserving the high quality factor via choosing the right dopants to optimize the carrier concentration. Furthermore, we showed that the strategy of evaluating the quality factor can be applied to other material systems, serving as a general guideline for thermoelectric materials design. The quality factor of GeTe in this work is superior to most other high-performing chalcogenides such as PbTe, SnTe, and SnS, revealing the large space for further enhancing its zT.