陈冲 - 河南大学 - 光伏材料省重点实验室

个人简介

陈冲，男，河南大学特聘教授。2009年中科院等离子体物理研究所博士毕业，2010年至2011年分别在韩国高等科学技术研究所（KAIST）和美国南达科塔州立大学从事博士后研究工作。2017年至2018年在美国匹兹堡大学进行学术访问。目前主要从事聚合物太阳能电池、量子点太阳能电池和有机-无机杂化钙钛矿太阳能电池材料制备和性能分析以及电池理论模拟研究，特别是新材料的合成及其在电池中的应用和电池的运行机理的理论模拟和分析。目前已发表SCI论文50余篇，其中，以第一作者或通讯作者在SCI国际知名杂志《Advanced Functional Materials》、《Nano Energy》、《J. Mater. Chem. A/C》、《ACS Applied Materials & Interfaces》、《J. Mater. Chem.》、《J. Power Sources》、《J. Phys. Chem. C》、《Nanotechnology》等期刊上已经发表30余篇SCI论文，获得国家授权发明专利近10项，主持国家、省级项目4项和校级项目1项，包括国家自然科学基金-河南省联合基金、国家自然科学基金青年基金、河南省高校创新人才项目、河南省科技攻关国际合作项目等。多年来担任Adv. Mater.、adv. Energy mater.、ACS Appl. Mater. Inter.、J. Mater. Chem.A、J. Power Sources、J. Phys. Chem. C等国际学术期刊审稿人。

研究领域

主要从事聚合物太阳能电池、量子点太阳能电池和有机-无机杂化钙钛矿太阳能电池材料制备和性能分析以及电池理论模拟研究，特别是新材料的合成及其在电池中的应用和电池的运行机理的理论模拟和分析

近期论文

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1. F. Li, Z. Shen, Y. Weng, Q. Lou, C. Chen,* Liang Shen, Wenbin Guo, Guangyong Li.* Novel electron transport layer material for perovskite solar cells with over 22% efficiency and long-term stability. Advanced Functional Materials, 2020, DOI:10.1002/adfm.202004933. 2. C. Chen,* L. Fumin, L. Zhu, Z. Shen, Y. Weng, Q. Lou, F. Tan, G. Yue, Q. Huang, M. Wang, Efficient and stable perovskite solar cells thanks to dual functions of oleyl amine-coated PbSO4(PbO)4 quantum dots: defect passivation and moisture/oxygen blocking. Nano Energy, 2020, 68, 104313. 3. L. Zhu, C. Chen,* F. Li, Z. Shen, Y. Weng, Q. Huang, * Mingtai. Wang.* Enhancing efficient and stability of perovskite solar cells by incorporating CdS and Cd(SCN2H4)2Cl2 into CH3NH3PbI3 active layer, Journal of Materials Chemistry A, 2019, 7, 1124-1137. 4. F. Wu, * R. Pathak, C. Chen,* Y. Tong, H. Xu, T. Zhang, R. Jian, X. Li and Q. Qiao *, Reduced hysteresis in perovskite solar cells using metal oxide/organic hybrid hole transport layer with generated interfacial dipoles. Electrochim. Acta, 2020, 354, 136660. 5. W. Chen, J. Qi, C. Dong, J. Chen, Z. Shen, Y. He, S. yang, Tao Chen, C. Chen,* Y. Li*, M. Li,*. Solution-Processed in Situ Growth of CuInS2 Nanoparticle Films for Efficient Planar Heterojunction Solar Cells with a Dual Nature of Charge Generation. ACS Applied Energy Materials, 2019, 2 (7), 5231-5242. 6. Y. Weng, Z. Shen, M. Guo, F. Wu, F. Li, L. Zhu, L. Ling, C. Chen,* Electric dipole moment-assisted charge extraction and effective defect passivation in perovskite solar cells by depositing PCBM:TIPD blend film on CH3NH3PbI3 layer. Journal of Materials Chemistry C, 2019, 7, 11559-11568. 7. L. Zhu, C. Chen ,* Y. Weng, F. Li and Q. Lou, Enhancing the performance of inverted perovskite solar cells by inserting a zno:Tipd film between pcbm layer and ag electrode. Solar Energy Materials and Solar Cells, 2019, 198, 11-18. 8. J. W. Chen, Z. Y. Wan, J. D. Liu, S. Q. Fu, F. P. Zhang, S. F. Yang, S. W. Tao, M. T. Wang and C. Chen*, Growth of compact CH3NH3PbI3 thin films governed by the crystallization in Pbl2 matrix for efficient planar perovskite solar cells. ACS Applied Materials & Interfaces, 2018, 10, 8649-8658. （SCI 一区 IF=8.4） 9. C. Chen*, Y. Zhai, F. Li, F. Tan, G. Yue, W. Zhang and M. Wang, High efficiency CH3NH3PbI3:CdS perovskite solar cells with CuInS2 as the hole transporting layer. Journal of Power Sources, 2017, 341, 396-403. 10. M. Guo, F. Li, L. Ling and C. Chen*, Electrochemical and atomic force microscopy investigations of the effect of cds on the local electrical properties of CH3NH3PbI3:CdS perovskite solar cells. Journal of Materials Chemistry C, 2017, 5, 12112-12120. 11. C. Chen*, Y. Zhai, F. Li and G. Yue, Fabrication of silver sulfide thin films for efficient organic solar cells with high short-circuit currents based on double heterojunctions. Journal of Power Sources, 2015, 298, 259-268. 12. C. Chen*, G. Ali, S. H. Yoo, J. M. Kum and S. O. Cho, Improved conversion efficiency of cds quantum dot-sensitized TiO2 nanotube-arrays using CuInS2 as a co-sensitizer and an energy barrier layer. Journal of Materials Chemistry, 2011, 21, 16430-16435. 13. C. Chen*, R. Peng, H. Wu and M. Wang, Electric field effects on charge transport in polymer/TiO2 photovoltaic cells investigated by intensity modulated photocurrent spectroscopy. Journal of Physical Chemistry C, 2009, 113, 12608-12614. 14. C. Chen*, M. Wang and K. Wang, Characterization of polymer/TiO2 photovoltaic cells by intensity modulated photocurrent spectroscopy. Journal of Physical Chemistry C, 2009, 113, 1624-1631. 15. C. Chen*, L. Ling and F. Li, Double-sided transparent TiO2 nanotube/ITO electrodes for efficient CdS/CuInS2 quantum dot-sensitized solar cells. Nanoscale Research Letters, 2017, 12. 4. 16. Y. Zhai, F. Li, L. Ling and C. Chen*, A comparative study of the effects of Ag2S films prepared by mpd and hrtd methods on the performance of polymer solar cells. Applied Surface Science, 2016, 384, 217-224. 17. C. Chen*, Y. Zhai, F. Li and L. Ling, Photocurrent enhancement of the CdS/TiO2/ITO photoelectrodes achieved by controlling the deposition amount of Ag2S nanocrystals. Applied Surface Science, 2015, 356, 574-580. 18. C. Chen*, F. Li, G. Li, F. Tan, S. Li and L. Ling, Double-sided transparent electrodes of TiO2 nanotube arrays for highly efficient CdS quantum dot-sensitized photoelectrodes. Journal of Materials Science, 2014, 49, 1868-1874. 19. C. Chen*, F. Li, F. Wu, F. Tan, Y. Zhai and W. Zhang, Efficient perovskite solar cells based on low-temperature solution-processed (CH3NH3)PbI3 perovskite/CuInS2 planar heterojunctions. Nanoscale Research Letters, 2014, 9, 457. 20. C. Chen*, Y. Xie, G. Ali, S. H. Yoo and S. O. Cho, Improved conversion efficiency of CdS quantum dots-sensitized TiO2 nanotube array using zno energy barrier layer. Nanotechnology, 2011, 22. 015202.