Prof. FENG, Shien-Ping
馮憲平

Professor

  • Ph.D., National Tsing Hua University, Taiwan
  • M.S., National Tsing Hua University, Taiwan
  • B.S., National Tsing Hua University, Taiwan
Office
YEUNG-P6630
Phone
(+852) 3442-8413
Email
tony.feng@cityu.edu.hk
Fax
(+852) 3442-0173
Web
https://www.tonyfenglab.com/
Research Interests
  • Heat to Electricity Conversion
  • Solar and Indoor Photovoltaics
  • Semiconductor Manufacturing
Biography

Tony Shien-Ping Feng is a Professor of Systems Engineering at City University of Hong Kong (CityU). He received his BS, MS, PhD from National Tsing Hua University (NTHU), Taiwan. Before entering academia, he was an engineer, senior engineer, principal engineer, section manager, and technical manager at Taiwan Semiconductor Manufacturing Company (TSMC) from 2001 to 2008 and a deputy director at Tripod Technology Corporation from 2008 to 2009. He was employed as a Postdoctoral Associate at Massachusetts Institute of Technology (MIT) from 2009 to 2011. He joined The University of Hong Kong (HKU) as an Assistant Professor in 2011 and was promoted to Associate Professor with tenure in 2017. He joined CityU as a Full Professor in 2022. His research focuses on electrochemical system design and materials engineering for green energy and semiconductor manufacturing.

Publications
  1. W. T. Wang, P. Holzhey, N. Zhou, Q. Zhang, S. Zhou, E. A. Duijnstee, K. J. Rietwyk, J. Y. Lin, Y. Mu, Y. Zhang, U. Bach, C. G. Wu, H. L. Yip, H. J. Snaith, S. P. Feng, Water- and Heat-activated Dynamic Passivation for Perovskite Photovoltaics, Nature, 632, 294-300, 2024.
  2. C. He, J. Zhou, R. Zhou, C. Chen, S. Jing, K. Mu, Y. T. Huang, C. C. Chung, S. J. Cherng, Y. Lu, K. N. Tu, S. P. Feng, Nanocrystalline Copper for Direct Copper-to-copper Bonding with Improved Cross-interface Formation at Low Thermal Budget, Nature Communications, 15, 7095, 2024.
  3. W. T. Wang, C. H. Chiang, Q. Zhang, Y. Mu, C. G. Wu, S. P. Feng, Defect-induced Dipole Moment Change of Passivators for Improving the Performance of Perovskite Photovoltaics, ACS Energy Letters, 9, 2982-2989, 2024.
  4. C. Liu, S. Wang, X. Wang, J. Mao, Y. Chen, N. X. Fang, S. P. Feng, Hydrovoltaic energy harvesting from moisture flow using an ionic polymer–hydrogel–carbon composite, Energy & Environmental Science, 15, 2489, 2022.
  5. K. Mu, Y. Mu, X. Wang, X. Wu, C. Pang, Y. T. Huang, S. P. Feng, Direct thermal charging cell using nickel hexacyanoferrate anode for green recycling of low-grade heat, ACS Energy Letters, 7, 1146, 2022.
  6. Y. Wu, Y. Mu, Y. Luo, C. Menon, Z. Zhou, P. Chu, S. P. Feng, Hofmeister effect and electrostatic interaction enhanced ionic conductive organohydrogels for electronic applications, Advanced Functional Materials, 2110859, 2021.
  7. Y. Wu, J. Qu, X. Zhang, K. Ao, Z. Zhou, Z. Zheng, Y. Mu, X. Wu, Y. Luo, S. P. Feng, Biomechanical energy harvesters based on ionic conductive organohydrogels via the hofmeister effect and electrostatic interaction, ACS Nano, 15, 13427, 2021.
  8. Z. Zhou, Q. Wu, R. Cheng, H. Zhang, S. Wang, M. Chen, M. Xie, P. K. L. Chan, M. Grätzel, S. P. Feng, Orientation-engineered small-molecule semiconductors as dopant-free hole transporting materials for efficient and stable perovskite solar cells, Advanced Functional Materials, 31, 2011270, 2021.
  9. C. G. Han, X. Qian, Q. Li, B. Deng, Y. Zhu, Z. Han, W. Zhang, W. Wang, S. P. Feng, G. Chen, W. Liu, Giant thermopower of ionic gelatin near room temperature, Science, 368, 1091, 2020.
  10. W. T. Wang, P. Chen, C. H. Chiang, T. F. Guo, C. G. Wu, S. P. Feng, Synergistic reinforcement of built-in electric fields for highly efficient and stable perovskite photovoltaics, Advanced Functional Materials, 30, 1909755, 2020.
  11. X. Wang, Y. T. Huang, C. Liu, K. Mu, K. H. Li, S. Wang, Y. Yang, L. Wang, C. H. Su, S. P. Feng, Direct thermal charging cell for converting low-grade heat to electricity, Nature Communications, 10, 4151, 2019 (featured in editor's highlights).
  12. R. Cheng, C. C. Chung, H. Zhang, F. Liu, W. T. Wang, Z. Zhou, S. Wang, A. B. Djurišić, S. P. Feng, Tailoring triple-anion perovskite material for indoor light harvesting with restrained halide segregation and record high efficiency beyond 36%, Advanced Energy Materials, 9, 1901980, 2019 (featured as front cover).
  13. X. H. Li, C. Liu, S. P. Feng, N. X. Fang, Broadband light management with thermochromic hydrogel microparticles for smart windows, Joule, 3, 290, 2019.
  14. B. Dai, J. Wang, Z. Xiong, X. Zhan, W. Dai, C. C. Li, S. P. Feng, J. Tang, Programmable artificial phototactic microswimmers, Nature Nanotechnology, 11, 1087, 2016.
  15. P. Zhai, T. Y. Hsieh, C. Y. Yeh, C. C. Hu, J. H. Su, T. C. Wei, S. P. Feng, Tri-functional TiO2 nanoparticles with exposed {001} facets as the additive for cobalt-based porphyrin-sensitized solar cells, Advanced Functional Materials, 25, 6093, 2015.
  16. D. Kraemer, B. Poudel, S. P. Feng, J. C. Caylor, B. Yu, X. Yan, Y. Ma, X. Wang, D. Wang, A. Muto, K. McEnaney, M. Chiesa, Z. F. Ren, G. Chen, High-performance flat-panel solar thermoelectric generators with high thermal concentration, Nature Materials, 10, 532, 2011.
  17. S. P. Feng, T. Paudel, B. Yu, S. Chen, Z. F. Ren, G. Chen, Nanoparticle-enabled selective electrodeposition, Advanced Materials, 23, 2454, 2011.