Wenzhong Shen Professor 教育部“长江学者” (2000 年)、国家“杰出青年” (2001 年)
  • Institute of Condensed Matter Physics
  • Semiconductor Physics
  • 021-54747552
  • Room 723, No. 5 Science Building
  • wzshen@sjtu.edu.cn
  • http://cmsoep.physics.sjtu.edu.cn

Ph.D., Semiconductor Physics and Semiconductor Device, 1995, Shanghai Institute of Technical Physics, Chinese Academy of SciencesProfessor in Physics, 1999, Shanghai Jiao Tong UniversityChangjiang Chair Professor, 2000, Minister of EducationDistinguished Young Scientist Award, 2001, National Science Foundation of ChinaChangjiang Innovation Group Leader, 2005, Minister of EducationDirector, 2009, Key Laboratory of Artificial Structures and Quantum Control, Ministry of EducationChairman, 2011, Shanghai Solar Energy SocietyDistinguished PV Scientist Award, 2016, International Photovoltaic Power Generation Conference & Exhibition

Research Interests:

1.  Photovoltaic Science and Technology

2.  Semiconductor Quantum Electronic Devices

Selected Publications:

  1.  All-solution-processed random Si nanopyramids for excellent light trapping in ultrathin solar cells, Sihua Zhong, Wenjie Wang, Yufeng Zhuang, Zengguang Huang, and Wenzhong Shen, Advanced Functional Materials 26, 4768-4777 (2016).

  2.  20.0%-efficient Si nano/microstructures based solar cells with excellent broadband spectral response, Zengguang Huang, Xiaomin Song, Sihua Zhong, Haiyuan Xu, Wenxing Luo, Xudong Zhu, and Wenzhong Shen, Advanced Functional Materials 26, 1892-1898 (2016).

  3.  Versatile strategies for improving the performance of diamond wire sawn mc-Si solar cells, Y. F. Zhuang, S. H. Zhong, Z. G. Huang, and W. Z. Shen, Solar Energy Materials & Solar Cells 153, 18-24 (2016).

  4.  High-efficiency nanostructured silicon solar cells on large scale realized through suppression of recombination channels, Sihua Zhong, Zengguang Huang, Xingxing Lin, Yang Zeng, Yechi Ma, and Wenzhong Shen, Advanced Materials 27, 555-561 (2015).

  5. An effective way to simultaneous realization of excellent optical and electrical performance in large-scale Si nano/micro-structures, Zengguang Huang, Sihua Zhong, Xia Hua, Xingxing Lin, Xiangyang Kong, Ning Dai, and Wenzhong Shen, Prog. Photovoltaics: Res. & Appl. 23, 964-972 (2015).

  6. One-step-MACE nano/micro structures for high-efficient large-size multicrystalline Si solar cells, Z. G. Huang, X. X. Lin, Y. Zeng, S. H. Zhong, X. M. Song, C. Liu, X. Yuan, and W. Z. Shen, Solar Energy Materials & Solar Cells 143, 302-310 (2015).

  7. Perovskite/c-Si tandem solar cell with inverted nanopyramids: realizing high efficiency by controllable light trapping, Dai Shi, Yang Zeng, and Wenzhong Shen, Scientific Reports 5, 16504-(1-10) (2015).

  8. High performance PbS quantum dot sensitized solar cells via electric field assisted in situ chemical deposition on modulated TiO2 nanotube arrays, Liang Tao, Yan Xiong, Hong Liu, and Wenzhong Shen, Nanoscale 6, 931-938 (2014).

  9. Near-room-temperature photon-noise-limited quantum well infrared photodetector, Mingrui Hao, Yao Yang, Shuai Zhang, Wenzhong Shen, Harald Schneider, and Huichun Liu, Laser Photonics Rev. 8, 297-302 (2014).

  10. Mass production of high efficiency selective emitter crystalline silicon solar cells employing phosphorus ink technology, S. H. Zhong, W. Z. Shen, F. Liu, and X. Li, Solar Energy Materials & Solar Cells 117, 483-488 (2013).



  1. Wenzhong Shen and Zhenping Li, Physics and devices of silicon heterojunction solar cells, Scientific Press, 2014, Beijing, ISBN: 978-7-03-041514-1.

  2. Wenzhong Shen ed., Solar photovoltaic technology and application, Shanghai Jiao Tong University Press, 2013, Shanghai, ISBN: 978-7-313-10401-4/TM.

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