[1] J. Mao, H.T. Zhu, Z.W. Ding, Z.H. Liu, G.A. Gamage, G. Chen, Z.F. Ren, High thermoelectric cooling performance of Mg3Bi2-based materials, Science, 365, 495-498, 2019.
[2] J. Mao, G. Chen, Z.F. Ren, Thermoelectric cooling materials, Nat. Mater., doi: 10.1038/s41563-020-00852-w, 2020.
[3] J. Mao, Z.H. Liu, J.W. Zhou, H.T. Zhu, Q. Zhang, G. Chen, Z.F. Ren, Advances in Thermoelectrics, Adv. Phys., 62, 69-147, 2018.
[4] J. Mao, J. Shuai, S.W. Song, Y.X. Wu, R. Dally, J.W. Zhou, Z.H. Liu, J.F. Sun, Q.Y. Zhang, C. dela Cruz, S. Wilson, Y.Z. Pei, D. Singh, G. Chen, C.W. Chu, and Z.F. Ren, Manipulation of ionized impurity scattering for achieving high thermoelectric performance in n-type Mg3Sb2-based materials, Proc. Natl. Acad. Sci. U.S.A., 114, 10548-10553, 2017.
[5] H.T. Zhu#, J. Mao#, Y.W. Li, J.F. Sun, Y.M. Wang, Q. Zhu, G.N. Li, Q.C. Song, J.W. Zhou, Y.H. Fu, R. He, T. Tong, Z.H. Liu, W.Y. Ren, L. You, Z.M. Wang, J. Luo, A. Sotnikov, J.M. Bao, K. Nielsch, G. Chen, Z.F. Ren, Discovery of TaFeSb based half Heuslers with high thermoelectric performance, Nat. Commun., 10, 270, 2019. 共同一作
[6] H.T. Zhu#, J. Mao#, Y.M. Wang, Z.Z. Feng, J.F. Sun, Q. Zhu, Z.H. Liu, D. Singh, Z.F. Ren, Understanding the asymmetrical thermoelectric performance for discovering promising thermoelectric materials, Sci. Adv., 5, eaav5813, 2019. 共同一作
[7] J. Shuai#, J. Mao#, S.W. Song, Q. Zhu, J.F. Sun, Y.M. Wang, R. He, J.W. Zhou, G. Chen, D. Singh, Z.F. Ren, Tuning the carrier scattering mechanism to effectively improve the thermoelectric properties, Energy Environ. Sci., 10, 799-807, 2017. 共同一作
[8] H.T. Zhu#, R. He#, J. Mao#, Q. Zhu, C.H Li, J.F. Sun, W.Y. Ren, Y.M. Wang, Z.H. Liu, Z.J. Tang, A. Sotnikov, Z.M. Wang, D. Broido, D. Singh, Gang Chen, Kornelius Nielsch, Z.F. Ren, Discovery of the ZrCoBi-based half-Heuslers with high thermoelectric conversion efficiency, Nat. Commun., 9, 2497, 2018. 共同一作
[9] Q. Zhang*, Q.C. Song, X.Y. Wang, J.Y. Sun, Q. Zhu, K. Dahal, X. Lin, F. Cao, J. W. Zhou, S. Chen, G. Chen, J. Mao*, Z.F. Ren*, Deep defect level engineering: a strategy of optimizing the carrier concentration for high thermoelectric performance, Energy Environ. Sci., 11, 933-940, 2018. 通讯作者