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Ag-Mg antisite defect induced high thermoelectric performance of α-MgAgSb

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posted on 2024-11-15, 17:36 authored by Zhenzhen Feng, Jihua Zhang, Yuli Yan, Guangbiao Zhang, Chao Wang, Chengxiao Peng, Fengzhu Ren, Yuan Xu Wang, Zhenxiang ChengZhenxiang Cheng
Engineering atomic-scale native point defects has become an attractive strategy to improve the performance of thermoelectric materials. Here, we theoretically predict that Ag-Mg antisite defects as shallow acceptors can be more stable than other intrinsic defects under Mg-poor-Ag/Sb-rich conditions. Under more Mg-rich conditions, Ag vacancy dominates the intrinsic defects. The p-type conduction behavior of experimentally synthesized ¿-MgAgSb mainly comes from Ag vacancies and Ag antisites (Ag on Mg sites), which act as shallow acceptors. Ag-Mg antisite defects significantly increase the thermoelectric performance of ¿-MgAgSb by increasing the number of band valleys near the Fermi level. For Li-doped ¿-MgAgSb, under more Mg-rich conditions, Li will substitute on Ag sites rather than on Mg sites and may achieve high thermoelectric performance. A secondary valence band is revealed in ¿-MgAgSb with 14 conducting carrier pockets.

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Citation

Feng, Z., Zhang, J., Yan, Y., Zhang, G., Wang, C., Peng, C., Ren, F., Wang, Y. & Cheng, Z. (2017). Ag-Mg antisite defect induced high thermoelectric performance of α-MgAgSb. Scientific Reports, 7 (1), 2572-1-2572-12.

Journal title

Scientific Reports

Volume

7

Issue

1

Language

English

RIS ID

114654

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