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Open Access

Stable high-performance n-type PbTe enabled by lattice engineering for robust thermoelectric modules

Lulu Chena,bJianfeng Caia,b( )Zongwei Zhanga,bMinhui YuancAilong YangaChenhao HanaRensheng ZhangaJiehua Wua,bXiaojian Tana,bGuoqiang Liua,b( )Jun Jianga,b( )
Ningbo Institute of Materials Technology and Engineering, Chinese Academy of Sciences, Ningbo, 315201, Zhejiang, China
University of Chinese Academy of Sciences, Beijing, 100049, China
School of Materials, Shenzhen Campus of Sun Yat-sen University, Shenzhen, 518107, Guangdong, China
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Abstract

P-type PbTe is one of the most representative high-performance thermoelectric materials, while the conversion efficiency of the fabricated module is limited by the relatively low zT of n-type PbTe. Here, we report the optimization of Cu-doped n-type PbTe by tuning the ionic migration energy, aiming for the high-efficiency and robust modules. It is revealed that the strategy of lattice contraction, achieved by Ge/Se co-doping, preserves the excellent carrier mobility from interstitial Cu and suppresses the unstable transport at high temperature. In the optimized sample of Pb0.94Ge0.06Cu0.02Se0.04Te0.96, a superior average zT (300–823 K) of 1.04 and a high peak zT of 1.45 at 823 K are obtained. A remarkable conversion efficiency of 10.5% at a temperature difference of 500 K is achieved in the fabricated PbTe-based module.

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Journal of Materiomics

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Cite this article:
Chen L, Cai J, Zhang Z, et al. Stable high-performance n-type PbTe enabled by lattice engineering for robust thermoelectric modules. Journal of Materiomics, 2026, 12(3). https://doi.org/10.1016/j.jmat.2026.101204

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Received: 14 November 2025
Revised: 15 December 2025
Accepted: 02 January 2026
Published: 13 March 2026
© 2026 The Authors.

This is an open access article under the CC BY-NC-ND license (http://creativecommons.org/licenses/by-nc-nd/4.0/).