1. Enhanced thermoelectric performance of CoSbS via Se doping at dual Sb and S sites.
- Author
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Huang, Wei, Zhu, Hongyu, Liu, Qingshan, Duan, Suai, Yang, Manman, Liu, Xiaobing, and Su, Taichao
- Subjects
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CARRIER density , *THERMAL conductivity , *THERMOELECTRIC power , *ELECTRONIC structure , *THERMAL properties - Abstract
The natural mineral-based CoSbS compound has been identified as a potential candidate material for thermoelectric power generation. In this report, the solid solutions of CoSb 1−x S 1−x Se 2x (x ≤ 0.2) were constructed, and their electrical and thermal properties were studied at the temperatures ranging from 323 to 823 K. The results show that the dual doping of Se on Sb and S sites not only tunes the carrier concentration but also modifies the electronic structure, thereby optimizing the power factor of CoSbS effectively. Meanwhile, both the mass and the strain field fluctuation caused by the substitution of Se for both Sb and S strongly suppress the thermal conductivity of CoSbS, and finally make an enhanced zT ∼0.3 for CoSb 0.8 S 0.8 Se 0.4 at 823 K. In particular, the maximum averaged zT from 323 to 823 K in this study reaches ∼0.2, far exceeding the results of Se doping at single Sb or S site in CoSbS. These results indicate that dual doping at Sb and S sites via Se is an effective approach to make better thermoelectric performance for CoSbS. • Thermoelectric compound CoSbS with dual defects of Se Sb and Se S was constructed. • The carrier concentration and electronic structure of CoSbS were modified effectively by introducing of Se Sb and Se S defects. • An enhanced zT avg was obtained for CoSbS with Se Sb and Se S defects. [ABSTRACT FROM AUTHOR]
- Published
- 2024
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