联系方式：

地址：上海市曹安公路4800号同济大学嘉定校区德才馆450室

邮编：201804

Email：liwen@tongji.edu.cn

课题组主页: http://yanzhongpei.tongji.edu.cn

李文，男，博士，教授，博士生导师，2020年获得国家自然科学基金优秀青年科学基金项目。

教育经历：

2010.10-2013.09 日本静岡大学 光纳米物质机能专业      博士

2007.09-2010.07 郑州大学     材料加工工程专业        硕士

2003.09-2007.07 郑州大学     材料成型及控制工程专业  学士

工作经历

2021.01-至今    同济大学  材料科学与工程学院  教授

2017.03-2020.12  同济大学  材料科学与工程学院  副教授

2013.09-2017.02  同济大学  材料科学与工程学院  助理研究员

主要研究：热电材料是通过温差驱动载流子定向移动实现热能与电能直接转换的新型能源材料。该技术具有无噪音、无污染、无传动件、零维护等优点，是一类环境友好型能源技术。主要研究内容基于当前热电材料转换效率较低的瓶颈问题，设计开发高性能热电材料：(1) 传统热电材料的性能提升；(2) 新型高性能热电材料的设计与开发及其所隐含的基本物理及化学问题研究；(3) 生物医用新材料。

部分代表性论文

1) C. Qin, L. Cheng, Y. Xiao, C. Wen, B. Ge, W. Li*, Y. Pei*, “Substitutions and dislocations enabled extraordinary n-type thermoelectric PbTe”, Materials Today Physics, 17 (2021) 100355.

2) C. Sun, W. Li*, X. Shi, Z. Bu, P. Nan, Y. Li, B. Ge, Y. Pei*, “Na-doping enables both dislocations and holes in EuMg₂Sb₂ for thermoelectric enhancements”, Journal of Materials Chemistry A, 8 (2020) 8345.

3) Y. Xiao, Y. Wu, P. Nan, H. Dong, Z. Chen, Z. Chen, H. Gu, B. Ge, W. Li*, Y. Pei*, “Cu-interstitials enable carriers and dislocations for thermoelectric enhancements in n-PbTe_0.75Se_0.25”, Chem, 6 (2020) 523.

4) C. Sun, X. Shi, L. Zheng, B. Chen*, W. Li*, “Transport properties of p-type CaMg₂Bi₂ thermoelectrics”, Journal of Materiomics, 5 (2019) 567.

5) H. Liu, X. Zhang, J. Li, Z. Bu, X. Meng, R. Ang*, W. Li*, “Band and Phonon Engineering for Thermoelectric Enhancements of Rhombohedral GeTe”, ACS Applied Materials & Interfaces, 11 (2019) 30756.

6) B. Gao, J. Tang, F. Meng, W. Li*, “Band manipulation for high thermoelectric performance in SnTe through heavy CdSe-alloying”, Journal of Materiomics, 5 (2019) 111.

7) W. Li, S. Lin, M. Weiss, Z. Chen, J. Li, Y. Xu, W. G. Zeier, Y. Pei*, Crystal Structure Induced Ultral-low Lattice thermal Conductivity in Thermoelectric Ag₉AlSe₆, Advanced Energy Materials, 8 (2018) 1800030.

8) J. Li, W. Li*, Z. Bu, X. Wang, B. Gao, F. Xiong, Y. Chen, Y. Pei*, “Thermoelectric Transport Properties of Cd_xBi_yGe_1-x-yTe alloys”, ACS Applied Materials & Interfaces, 10 (2018) 39904.

9) W. Li, L. Zheng, B. Ge, S. Lin, X. Zhang, Z. Chen, Y. Chang, Y. Pei*, “Promoting SnTe as an eco-friendly solution for p-PbTe thermoelectric via band convergence and interstitial defects”, Advanced Materials, 29 (2017) 1605887. (ESI高被引论文)

10) W. Li, Y. Wu, S. Lin, Z. Chen, J. Li, X. Zhang, L. Zheng, Y. Pei*, “Advances in Environment-Friendly SnTe Thermoelectrics”, ACS Energy Letters, 2 (2017) 2349. (封面论文)

11) Y. Xu, W. Li*, C. Wang, J. Li, Z. Chen, S. Lin, Y. Chen, Y. Pei*, “Performance optimization and single parabolic band behavior of thermoelectric MnTe”, Journal of Materials Chemistry A, 5 (2017) 19143.

12) X. Wang, W. Li*, C. Wang, J. Li, X. Zhang, B. Zhou, Y. Chen, Y. Pei*, “Single parabolic band transport in p-type EuZn₂Sb₂ thermoelectrics”, Journal of Materials Chemistry A, 5 (2017) 24185.

13) S. Lin, W. Li*, Z. Chen, J. Shen, B. Ge, Y. Pei*, “Tellurium as a high-performance elemental thermoelectric”, Nature Communications, 7 (2016) 10287. (ESI高被引论文)

14) W. Li, S. Lin, X. Zhang, Z. Chen, X. Xu, Y. Pei*, “Thermoelectric properties of Cu₂SnSe₄ with intrinsic vacancy”, Chemistry of Materials, 28 (2016) 6627.

15) W. Li, S. Lin, B. Ge, J. Yang, W. Zhang, Y. Pei*, “Low Sound Velocity Contributing to the High Thermoelectric Performance of Ag₈SnSe₆”, Advanced Science, 3 (2016) 1600196. (ESI高被引论文)

16) W. Li, Z. Chen, S. Lin, Y. Chang, B. Ge, Y. Chen, Y. Pei*, “Band and scattering tuning for high performance thermoelectric Sn_1−xMn_xTe alloys”, Journal of Materiomics, 1 (2015) 307. (中国硅酸盐学会优秀论文奖)