Suppressing Ge-vacancies to achieve high single-leg efficiency in GeTe with an ultra-high room temperature power factor

Suppressing Ge-vacancies to achieve high single-leg efficiency in GeTe with an ultra-high room temperature power factor

GeTe is among the best medium-temperature thermoelectrics. Its high performance originates from band convergence at the phase transition and low lattice thermal conductivity due to Peierls distortion. In most studies, the peak performance (zT) in GeTe is achieved by designing and optimizing its elec...

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Bibliographic Details
Main Authors: Jia, Ning, Cao, Jing, Tan, Xian Yi, Zheng, Jie, Chien, Sheau Wei, Yang, Le, Chen, Kewei, Ng, Hong Kuan, Duran, Solco Samantha Faye, Liu, Hongfei, Tan, Ivan Chee Kiang, Li, Zibiao, Xu, Jianwei, Wu, Jing, Yan, Qingyu, Suwardi, Ady
Other Authors: School of Materials Science and Engineering
Format: Article
Language:English
Published: 2022
Subjects:
Engineering::Materials
High Thermoelectric Performance
Phase-Transition Temperature
Online Access:https://hdl.handle.net/10356/160015
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Institution: Nanyang Technological University
Language: English
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Summary:GeTe is among the best medium-temperature thermoelectrics. Its high performance originates from band convergence at the phase transition and low lattice thermal conductivity due to Peierls distortion. In most studies, the peak performance (zT) in GeTe is achieved by designing and optimizing its electronic and thermal transport properties near its phase transition temperature (700 K). However, for efficient power harvesting, a high average zT (zT(ave)) across a wide temperature range is desirable. This calls for a holistic performance evaluation and enhancement not only near 700 K, but also at room temperature. In this work, we leveraged on the confluence of performance enhancement strategies via Cu2Te alloying and In resonant doping to achieve a record-high room temperature power factor of 2800 mu W mK-2, and an average power factor of 3700 mu W mK-2 between 323 and 773 K. The magnitude of the room temperature power factor is comparable to that of the state-of-the-art Bi2Te3 based compounds. In the optimized sample with Bi doping, a room temperature zT of 0.5 is achieved, highest for lead-free GeTe. Ultimately, a high peak zT of 2.1 at 723 K and single leg power conversion efficiency of 11.8% were achieved between 323 and 745 K, which are among the highest reported for lead-free GeTe.

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