个人简历

INTRODUCTION:\r
Dr Feng Yan received PhD degree in physics from Nanjing University in 1997. Soon afterwards, he became an assistant professor and then an associate professor at Physics Department of Nanjing University. During that period, he worked on ferroelectric thin films, relaxor ferroelectrics and C60. From Feb 2001 to Sep 2005, Dr Yan worked at Engineering Department (Electrical Engineering) of Cambridge University as a Senior Research Associate being in close collaboration with Seiko Epson Corporation (Japanese company). In Cambridge, Dr Yan worked on poly-Si TFT, single-grain TFT, organic TFT and biosensors. After a short stay at Physics Department of Imperial College London, Dr Yan became a permanent staff ¾ Higher Research Scientist, at National Physical Laboratory in UK. His work during this period was mainly focusing on the fabrication and characterization of organic TFTs. Then Dr Yan joined Applied Physics Department of The Hong Kong Polytechnic University as an assistant professor in September 2006.\r
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EDUCATION\r
1994–1997, Department of Physics, Nanjing University, Nanjing, China\r
Ph.D., My PhD work was carried out in the group of Prof. Yening Wang. The research subject is “The electrical and mechanical properties and the phase transitions of C60 crystal”.\r
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1992–1994, Department of Physics, Nanjing University, Nanjing, China\r
Master. My research work was carried out in the group of Prof. Yening Wang. I had studied the dielectric properties and the grain size effect of polycrystalline C60.\r
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1988–1992, Department of Physics, Nanjing University, Nanjing, China\r
I got my BSc degree in the field of “condensed matter physics”.

研究领域

"""""Solar cells (organic & perovskite)\r
Organic electronics (OTFT; OECT);\r
TFTs for flat-panel displays and biosensors;\r
Metal oxide TFTs;\r
high-k polymer; "

近期论文

Efficient and stable perovskite solar cells prepared in ambient air irrespective of the humidity, Q. D. Tai, P. You, H. Q. Sang, Z. K. Liu, C. L. Hu, H. L.W. Chan and Feng Yan*, Nature Comm. 7, 11105 (2016).\r
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Au/Ag Core-Shell Nanocuboids for High-Efficiency Organic Solar Cells with Broadband Plasmonic Enhancement, Shenghua Liu, Ruibin Jiang, Peng You, Xingzhong Zhu, Jianfang Wang, and Feng Yan*, Energy Environ. Sci. 9, 898-905 (2016).\r
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Flexible Organic Electrochemical Transistors for Highly Selective Enzyme Biosensors and Used for Saliva Testing, Caizhi Liao, Chunhin Mak, Meng Zhang, Helen L.W. Chan and Feng Yan*, Adv. Mater. 27, 676-681 (2015).\r
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Flexible Organic Electronics in Biology: Materials and Devices, Caizhi Liao, Meng Zhang, Mei Yu Yao, Tao Hua, Li Li, Feng Yan*, Adv. Mater. 27, 7493-7527 (2015). (Most Accessed in 11/2014 & 1/2016 in Adv. Mater.)\r
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Efficient Semitransparent Perovskite Solar Cells with Graphene Electrodes, Peng You, Zhike Liu, Qidong Tai, Shenghua Liu, Feng Yan*, Adv. Mater. 27, 3632-3638 (2015). (Most Accessed in 6/2015 in Adv. Mater.)\r
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Enhanced Efficiency in Polymer Solar Cells by Adding a High-Mobility Conjugated Polymer, S. H. Liu, P. You, J. H. Li, J. Li, C. S. Lee, B. S Ong, C. Surya and Feng Yan*, Energy Environ. Sci. 8, 1463-1470 (2015). (Most Read Articles in 3/2015 in EES)\r
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Functionalized Graphene and Other Two-Dimensional Materials for Photovoltaic Devices: Device Design and Processing, Zhike Liu, Shu-Ping Lau and Feng Yan*, Chem Soc. Rev. 44, 5638-5679 (2015)\r
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Neutral-Color Semitransparent Organic Solar Cells with All-Graphene Electrodes, Zhike Liu, Peng You, Shenghua Liu, and Feng Yan*, ACS Nano 9, 12026–12034 (2015).\r
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Photosensitive Graphene Transistors, Jinhua Li, Liyong Niu, Zijian Zheng and Feng Yan*, Adv. Mater. 26, 5239-5273 (2014)\r
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High-Performance Dopamine Sensors Based on Whole-Graphene Solution-Gated Transistors, Meng Zhang, Caizhi Liao, Yanli Yao, Zhike Liu, Fengfei Gong and Feng Yan*, Adv. Funct. Mater. 24, 978-985 (2014). (Materials Views China)\r
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Package-free flexible organic solar cells with graphene top electrodes, Zhike Liu, Jinhua Li, and Feng Yan*, Adv. Mater. 25, 4296-4301 (2013).\r
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Solution-gated graphene field effect transistors integrated in microfluidic systems and used for flow velocity detection, Rong Xiang He, Peng Lin, Zhi Ke Liu, Hong Wei Zhu, Xing Zhong Zhao, Helen L. W. Chan, and Feng Yan*, Nano Lett. 12, 1404-1409 (2012) .\r
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Organic thin film transistors for chemical and biological sensing, Peng Lin and Feng Yan*, Adv. Mater. 24, 34-51 (2012).\r
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Solution processible low-voltage polymer thin film transistors with high-k relaxor ferroelectric polymer as gate insulator, Jinhua Li, Zhenhua Sun and Feng Yan*, Adv. Mater. 24, 88-93 (2012). \r
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Ultrasensitive infrared photodetectors based on CVD-grown graphene and PbS quantum dots, Zhenhua Sun, Zhike Liu, Jinhua Li, Guoan Tai, Shu-Ping Lau and Feng Yan*, Adv. Mater 24, 5878-5883(2012).\r
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The application of highly doped single-layer graphene as the top electrodes of semitransparent organic solar cells, Zhike Liu, Jinhua Li, Zhenhua Sun, Guoan Tai, Shu Ping Lau and Feng Yan*, ACS Nano 6, 810-818 (2012).\r
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Organic electrochemical transistors integrated in flexible microfluidic systems and used for label-free DNA sensing, Peng Lin, Xiaoteng Luo, I-Ming Hsing and Feng Yan*, Adv. Mater. 23, 4035-4040 (2011).\r
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Enhancement of Hole Mobility of Poly(3-hexylthiophene) Induced by Titania Nanorods in Composite Films, Zhenhua Sun, Jinhua Li, Chenming Liu, Shihe Yang and Feng Yan*, Adv. Mater. 23, 3648-3652 (2011).\r
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Highly sensitive glucose biosensors based on organic electrochemical transistors using platinum gate electrodes modified with enzyme and nanomaterials, Hao Tang, Feng Yan*, Peng Lin, Jianbin Xu and Helen L.W. Chan, Adv. Funct. Mater. 21, 2264-2272 (2011).\r
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The application of organic electrochemical transistors in cell-based biosensors, Peng Lin, Feng Yan*, Jinjiang Yu, Helen L. W. Chan, and Mo Yang, Adv. Mater, 22, 3655-3660 (2010).