Enhancing Near-Room-Temperature GeTe Thermoelectrics through In/Pb Co-doping

The traditional thermoelectric material GeTe has drawn much attention recently because of the reported high thermoelectric performance of the rhombohedral phase in low-temperature ranges, where the split L and Σ band can be reconverged to have a small energy offset and thus high density of state eff...

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Published inACS applied materials & interfaces Vol. 13; no. 31; pp. 37273 - 37279
Main Authors Li, Juan, Hu, Qing, He, Shan, Tan, Xiaobo, Deng, Qian, Zhong, Yan, Zhang, Fujie, Ang, Ran
Format Journal Article
LanguageEnglish
Published American Chemical Society 11.08.2021
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Summary:The traditional thermoelectric material GeTe has drawn much attention recently because of the reported high thermoelectric performance of the rhombohedral phase in low-temperature ranges, where the split L and Σ band can be reconverged to have a small energy offset and thus high density of state effective mass according to the rhombohedral angle. In addition, In doping in GeTe is also reported to enhance the density of effective mass and therefore increase the Seebeck coefficient because of the induced resonant levels. In this work, In and Pb are doped in GeTe, and In doping leads to an increase in the rhombohedral angle and thus enhanced density of state effective mass in addition to the resonant effect. However, the improved Seebeck coefficient result from In doping is compensated for by a sharp reduction of Hall mobility, leading to no significant enhancement of electronic performance in the rhombohedral phase. By further Pb/Ge doping in the matrix Ge0.95In0.05Te for the optimization of carrier concentration and reduction of lattice thermal conductivity (as low as 0.7 W/mK), a zT as high as ∼1.2 at 550 K and average zT of ∼0.75 between 300 and 550 K are realized in this work, demonstrating GeTe as a promising candidate for near-room-temperature application.
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ISSN:1944-8244
1944-8252
DOI:10.1021/acsami.1c11599