Introduction

Han Chen, Associate professor of School of Materials Science and Engineering, Shanghai Jiaotong University. After obtaining his PhD from Fukui University in Japan, he was a postdoctoral researcher in National Institute for Materials Science (NIMS) worked on dyes-sensitized solar cells (DSCs) from 2010 to 2011. After then, he is working as an associate professor in Shanghai Jiaotong University on device and performances of perovskite solar cells. His current research interests involve fundamental and application research in perovskite solar cells, dye-sensitized solar cells. 

Biographical Information

Professional Experience

Jan. 2018- current Associate professor

School of Materials Science & Engineering, Shanghai Jiaotong University, China

Dec. 2011 - Dec.2017    Lecturer

School of Materials Science & Engineering, Shanghai Jiaotong University, China

Aug. 2010 - Nov. 2011   Postdoctoral Researcher

Photovoltaics Materials Unit, National Institute for Materials Science (NIMS), Japan

Sep. 2004 – Sep. 2005    Plating Engineer

Shenzhen LongHua Foxconn precision Components Co, .Ltd, China.
 

Education 

Sep. 2007 - Jul. 2010    Ph. D.

Materials Engineering, Graduate School of Engineering, Fukui University, Japan 

Sep. 2005 - Jul. 2007    M. S.

Applied Chemistry and Biotechnology, Fukui University, Japan

Sep. 2000 - Jul. 2004    B. S.

Applied Chemical Engineering, Xi’an University of Technology, China

Research Interests

Perovskite solar cells, Dye sensitized solar cell, electrochemistry

Selected Publications

1. A solvent-and-vacuum-free route to large-area perovskite films for efficient solar modules. H. Chen†, F. Ye†, W. Tang†, J. He, M. Yin, Y. Wang, F. Xie, E. Bi, M. Grätzel, X. Yang, L. Han. Nature 550, 92–95

2. Diffusion Engineering of Ions and Charge Carriers for Stable Efficient Perovskite Solar Cells. E. Bi†, H. Chen†, F. Xie†, Y. Wu, W. Chen, Y. Su, A. Islam, M. Grätzel, X. Yang, L. Han. Nat. Commun. DOI: 10.1038/ncomms15330

3. Efficient and stable large-area perovskite solar cells with inorganic charge-extraction layers. W. Chen, Y. Wu, Y. Yue, J. Liu, W. Zhang, X. Yang, H. Chen, E. Bi, I. Ashraful, M. Grätzel* and L. Han*. Science, 350, 944, 2015

4. Thermally Stable MAPbI3 Perovskite Solar Cells with Efficiency of 19.19% and Area over 1 cm2 achieved by Additive Engineering. Y. Wu†, F. Xie†, H. Chen†, X. Yang, H. Su, M.g Cai, Z. Zhou, T. Noda, L.Han. Adv. Mater. 2017, 1701073

5. Soft-Cover Deposition of Uniform Large-Scale Perovskite Films for High-Performance Solar Cells. F. Ye†, H. Chen†, F. Xie†, W. Tang, M. Yin, J. He, E. Bi, Y. Wang, X. Yang*, L. Han*. Energy Environ. Sci., 2016, 9, 2295-2301

6. A quasi core–shell nitrogen-doped graphene/cobalt sulfide conductive catalyst for highly efficient dye-sensitized solar cells. E. Bi, H. Chen*,   X. Yang, W. Peng, M. Grätzel*, L. Han*.  Energy Environ. Sci., 2014, 7 (8), 2637 – 2641

7. Annealing-free perovskite films by instant crystallization for efficient solar cells. M. Yin, F. Xie, H. Chen*, X. Yang, Fei Ye, E. Bi, Y. Wu, M. Cai, L. Han*. J. Mater. Chem. A，2016, DOI: 10.1039/C6TA02490D

8. Ligand-free, Highly Dispersed NiOx Nanocrystal for Efficient, Stable, Low-temperature Processable Perovskite Solar Cells. J. He, E. Bi, W. Tang, Y. Wang, Z. Zhou, X. Yang, H. Chen*, L. Han*. Sol. RRL 2018, 1800004

9. Low-Temperature Soft-Cover-Assisted Hydrolysis Deposition of Large-Scale TiO2 Layer for Efficient Perovskite Solar Modules. J. He, E. Bi, W. Tang, Y. Wang, X. Yang, H. Chen*, L. Han*. Nano-Micro Letters，DOI: 10.1007/s40820-018-0203-7

10. Accurate and fast evaluation for perovskite solar cells with least hysteresis. M. Yin, Y. Wu, X. Yang*, F Ye, Y. Wang, J. He, W. Tang, F. Xie, E. Bi, H. Chen*, L. Han*.  Appl. Phys. Express. 10, 076601 (2017)

Research Projects

Honors & Awards

2018 “Yokoyama Ryōji awards”

2018 “Shanghai youth top-notch talent”