光电纳米催化与工业应用研究中心

闵杰
时间:2022-04-20 10:50:21点击量:

闵杰

教授,博士生导师

地址:湖北省武汉市武昌区八一路299号

邮编:430072

邮箱:min.jie@whu.edu.cn

电话:+86 13718331613

 

人简介:在2008年和2011年分别获得中国矿业大学(北京)化学工程与工艺专业本科和硕士学历(导师:解强教授),2008-2011期间在中国科学院化学研究所攻读联合培养硕士(导师:李永舫院士),2015年10月获得德国埃尔朗根-纽伦堡大学博士学位(导师:Prof. Christoph J. Brabec),之后留组从事博士后研究。2017年1月至今就职于武汉大学高等研究院,独立建组开展有机光电领域的研究工作。

 

研究方向:有机太阳电池,钙钛矿太阳电池等。重点围绕“材料化学-形貌物理-衰减机制-器件工程”的研究链条开展目标导向性基础研究,解决光电领域中关键科学和关键技术问题。其涉及的主要研究内容为:1.高效、稳定光电转换材料的理性设计与可控制备;2.光电材料与器件中的结构和表面界面分析与研究;3.不同光电体系的工作机理及其动力学本质;4.材料与器件衰减机制以及相关封装技术的研究。详细信息见https://www.researchgate.net/profile/Jie-Min-7

 

研究成果:本课题组长期从事有机光电功能材料的设计合成、光电性能表征和材料与器件物理研究,重点研究开发第三代柔性太阳能电池技术。在有机光伏材料制备、器件形貌优化、稳定性器件构建等方面取得了一定的成绩:近五年,以通讯作者身份发表Nature Energy 1篇,Joule 7篇,Nature Communications 1篇,Advanced Materials 2篇,Angewandte Chemie International Edition 2篇,Energy & Environmental Science 4篇等高水平论文70余篇,申请中国专利7项。在谷歌学者中论文被引用1万余次,H-index 56。

 

代表性论文:

1. R. Sun, T. Wang, X. R. Yang, Y. Wu, Y. Wang, Q. Wu, M. J. Zhang, C. J. Brabec, Y. F. Li andJ. Min*. High-speed sequential deposition of photoactive layer for organic solar cell manufacturing process. Nat. Energy, 2022. Accepted.

2. Q. Wu, Y. Yu, X. X. Xia, Y. H. Gao, T. Wang, R. Sun, J. Guo, S. S. Wang, G. H. Xie, X. H. Lu, E. J. Zhou andJ. Min*. High-performance organic photovoltaic modules using eco-friendly solvents for various indoor application scenarios. Joule, 2022. DOI:10.1016/j.joule.2022.07.001.

3. L. L. Zhan, S. X. Li, Y. K. Li, R. Sun,J. Min*,Z. Z. Bi, W. Ma, Z. Chen, G. Q. Zhou, H. M. Zhu, M. M. Shi, L. J. Zuo* and H. Z. Chen*. Desired open-circuit voltage increase enables efficiencies approaching 19% in symmetric-asymmetric molecule ternary organic photovoltaics. Joule, 2022, 6, 662-675.

4. R. Sun, W. Wang, H. Yu*, Z. Chen, X. X. Xia, Hao Shen, J. Guo, M. M. Shi, Y. N. Zheng, Y. Wu, W. Y. Yang, T. Wang, Q. Wu, Y. Yang, X. H. Lu, J. L. Xia, C. J. Brabec, H. Yan*, Y. F. Li andJ. Min*. Achieving over 17% efficiency of ternary all-polymer solar cells with two well-compatible polymer acceptors. Joule, 2021, 5, 1548-1565.

5. W. Y. Yang, W. Wang, Y. H. Wang, R. Sun, J. Guo, H. N. Li, M. M. Shi, J. Guo, Y. Wu, T. Wang, G. H. Lu, C. J. Brabec, Y. F. Li andJ. Min*. Balancing the efficiency, stability, and cost potential for organic solar cells via a new figure of merit. Joule, 2021, 5, 1209-1230.

6. Y. Wu, J. Guo, W. Wang, Z. H. Chen, Z. Chen, R. Sun, Q. Wu, T. Wang, X. T. Hao, H. M. Zhu andJ. Min*. A conjugated donor-acceptor block copolymer enables over 11% efficiency for single-component polymer solar cells. Joule, 2021, 5, 1800-1815.

7. R. Sun, Q. Wu, J. Guo, T. Wang, Y. Wu, B. B. Qiu, Z. H. Luo, W. Y. Yang, Z. C. Hu, J. Guo, M.M. Shi, C. L. Yang, F. Huang, Y. F. Li andJ. Min*. A layer-by-layer architecture for printable organic solar cells overcoming the scaling lag of module efficiency. Joule, 2020, 4, 407-419.

8. W. Wang, Q. Wu, R. Sun, J. Guo, J. Guo, M. M. Shi, W. Y. Yang, H. N. Li andJ. Min*. Controlling molecular mass of low-band-gap polymer acceptors for high-performance all-polymer solar cells. Joule, 2020, 4, 1070-1086.

9. W. Y. Yang, Z. H. Luo, R. Sun,J. Guo, T. Wang,Y. Wu, W. Wang, J. Guo, Q. Wu, M. M. Shi, H. N. Li, C. L. Yang andJ. Min*. Simultaneous enhanced efficiency and thermal stability in organic solar cells from a polymer acceptor additive. Nat. Commun, 2020, 11, 1218.

10. R. Sun, Y. Wu, X. R. Yang, Y. Gao, Z. Chen, K. Li, J. W. Qiao, T. Wang, J. Guo, C. Liu, X. T. Hao, H. M. Zhu andJ. Min*, Single-junction organic solar cells with 19.17% efficiency enabled by introducing one asymmetric guest acceptor. Adv. Mater., 2022, 34, 2110147.

11. C. K. Sun, F. Pan, S. S. Chen, R. Wang, R. Sun, Z. Y. Shang, B. B. Qiu,J. Min*, M. L. Lv*, L. Meng*, C. F. Zhang, M. Xiao, C. D. Yang and Y. F. Li*. Achieving fast charge separation and low nonradiative recombination loss by rational fluorination for high-efficiency polymer solar cells. Adv. Mater., 2019, 31, 1905480.

12. W. Wang, R. Sun, J. Guo, J. Guo andJ. Min*. A new oligothiophene-fullerene molecule with a balanced donor-acceptor backbone toward high-performance single-component organic solar cells.Angew. Chem. Int. Ed., 2019, 58, 14556-14561.

13. H. Yu, M. G. Pan,R. Sun,I. Agunawela, J. Q. Zhang, Y. H. Li, Z. Y. Qi, H. Han, X. H. Zhou, W. T. Zhou, S. S. Chen, J-Y-L. Lai, S. W. Luo, D. H. Zhao, X. H. Lu, H. Ade, F. Huang,J. Min*andH. Yan*, Regio-regular polymer acceptors enabled by determined fluorination on end groups for all-polymer solar cells with 15.2 % efficiency. Angew. Chem. Int. Ed., 2021, 133, 10225-10234.

14. R. Sun, J. Guo, C. K. Sun, T. Wang, Z. H. Luo, Z. H. Zhang, X. C. Jiao, W. H. Tang*, C. L. Yang*, Y. F. Li*andJ. Min*. A universal layer-by-layer solution-processing approach for efficient non-fullerene organic solar cells. Energy Environ. Sci., 2019, 12, 384-395.

15. R. Sun, D. Deng, J. Guo, Q. Wu, J. Guo, M. M. Shi, K. Shi, T. Wang, L. J. Xue, Z. X. Wei andJ. Min*. Spontaneous open-circuit voltage gain of fully fabricated organic solar cells caused by elimination of interfacial energy disorder. Energy Environ. Sci., 2019, 12, 2518-2528.

16. R. Sun, J. Guo, Q. Wu, Z. H. Zhang, W. Y. Yang, J. Guo, M. M. Shi, Y. H. Zhang, S. Kahmann, L. Ye, X. C. Jiao, M. A. Loi, Q. Shen, H. Ade, W. H. Tang, C. J. Brabec andJ. Min*.A multi-objective optimization-based layer-by-layer blade-coating approach for organic solar cells: rational control of vertical stratification for high performance. Energy Environ. Sci., 2019, 12, 3118-3132.

17. R. Sun, Y. Wu, J. Guo, Y. H. Wang, F. Qin, B. X. Shen, D. H. Li, T. Wang, Y. W. Li, Y. H. Zhou, G. H. Lu, Y. F. Li andJ. Min*, High-performance all-small-molecule organic solar cells without interlayers. Energy Environ. Sci., 2021, 14, 3174-3183.


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