Published in
Royal Society of Chemistry, Journal of Materials Chemistry A: materials for energy and sustainability, 41(9), p. 23335-23344, 2021
DOI: 10.1039/d1ta05866e
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Suppressing Ge-vacancies to achieve high single-leg efficiency in GeTe with an ultra-high room temperature power factor
Journal article published in 2021 by
Ning Jia,
Jing Cao,
Xian Yi Tan 
,
Jie Zheng ,
Sheau Wei Chien,
Le Yang ,
Kewei Chen,
Hong Kuan Ng ,
Solco Samantha Faye Duran ,
Hongfei Liu,
Chee Kiang Ivan Tan,
Zibiao Li ,
Jianwei Xu,
Jing Wu,
Qingyu Yan
and other authors.
,
Jie Zheng ,
Sheau Wei Chien,
Le Yang ,
Kewei Chen,
Hong Kuan Ng ,
Solco Samantha Faye Duran ,
Hongfei Liu,
Chee Kiang Ivan Tan,
Zibiao Li ,
Jianwei Xu,
Jing Wu,
Qingyu Yan
and other authors.
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Abstract
Adding Cu2Te, In, and Bi into GeTe results in an ultra-high power factor and averagezT. A power conversion efficiency of 11.8% can be achieved in lead-free, single-leg GeTe between 323 and 745 K.