教师名录
沈文忠 教授 教育部“长江学者” (2000 年)、国家“杰出青年” (2001 年)
  • 凝聚态物理研究所
  • 半导体物理与半导体器件物理
  • 021-54747552
  • 理科楼5号楼723室
  • wzshen@sjtu.edu.cn
  • http://cmsoep.physics.sjtu.edu.cn

沈文忠,教授,博士生导师,长江学者,国家杰出青年基金获得者。1968年5月生,1995年6月在中国科学院上海技术物理研究所获博士学位。1999年9月起任上海交通大学物理与天文系教授、博士生导师,2007年1月起担任上海交通大学太阳能研究所所长。兼任中国可再生能源学会常务理事、上海市太阳能学会理事长、国际PVSEC (International Photovoltaic Science and Engineering Conference) Advisory Committee Member、《太阳能光伏》主编。主要从事新型硅基太阳电池研发和光电子器件物理研究工作。在国际一流SCI收录学术刊物上发表高水平学术论文200多篇,已被他人引用超过4000次;出版学术专著1部(《硅基异质结太阳电池物理与器件》,39.6万字,科学出版社,2014),主编学术专著1部(《太阳能光伏技术与应用》,86.4万字,上海交通大学出版社,2013)。

论文:

  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).

 

专著:

  1. 沈文忠、李正平编著,《硅基异质结太阳电池物理与器件》,2014年,科学出版社,39.6万字,ISBN: 978-7-03-041514-1.

  2. 沈文忠主编,《太阳能光伏技术与应用》, 2013年,上海交通大学出版社,86.4万字,ISBN: 978-7-313-10401-4/TM. 


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