方海平,1965年生,山东大学学士(1985)、硕士(1988),中国科学院理论物理研究所博士(1994);1994-1996复旦大学博士后。1997-1998香港科技大学访问学者,2000-2001美国John Hopkins大学访问副教授;2001-2018中国科学院上海应用物理研究所研究员,水科学与技术研究室主任(2012年开始);2018-2020为中国科学院上海高等研究院水科学与技术研究室主任,研究员;目前为华东理工大学理学院教授,博士生导师。
长期从事从宏观到微纳米尺度的理论物理和其他领域的交叉学科研究。近年来主要侧重于界面水、纳米生物学和理论物理学的交叉研究,特别是受限尺度空间中水和离子的特性、及其诱导的生物分子特性和新材料开发等。这些研究将为海水淡化、污水处理、各种离子分离等技术,相关的药物的和抗菌表面、具有新颖光电磁性质的材料等的设计和实现等提供帮助。系列工作以通信作者发表在Nature(2017)、Nat. Chem.(2018)、Nat. Nanotechnol(2007)、Proc. Natl. Acad. Sci. USA(2007,2009)、Phys. Rev. Lett.(8篇)、Energy Environ. Sci.(2011)、JACS(2005,2009,2012)等国际杂志上。被Physics World、 New Scientist、Chemical World、Nat. Nanotechnol.、Nat. Mater.、Nature Reviews Chemistry、Nature Chemistry等国际期刊报道。获国家杰出青年科学基金,上海市学科带头人,上海市领军人才称号。
培养研究生情况:
已培养博士30余名,硕士20余名。现有11名在读博士,2名在读硕士。其中多人获得各种奖励,包括国家奖学金(5人次)、中国科学院优秀博士论文(1人次)中科院朱李月华博士奖(2人次)、中科院优秀毕业生(1人次)、上海市优秀毕业生(3人次)、中科院“三好学生标兵”(5人次)等等。
联系方式:
地址:华东理工大学理学院312室, 上海梅陇路130号, 上海200237
邮箱:fanghaiping@sinap.ac.cn
主要研究领域:
1)统计物理,理论物理,纳米生物学;
2)界面水和相关滤膜;
3)新颖二维材料;
代表性文章:
1. Haijun Yang, Yizhou Yang, Shiqi Sheng, Binghai Wen, Nan Sheng, Xing Liu, Rongzheng Wan, Long Yan, Zhengchi Hou, Xiaoling Lei, Guosheng Shi* and Haiping Fang*, Controlling the coffee ring effect on graphene and polymer by cations, Chin. Phys. Lett. (Express Letter) 2020, 37, 028103. Highlight by Physics World with a title of “A salty solution for the coffee-ring effect”. https://physicsworld.com/a/a-salty-solution-for-the-coffee-ring-effect/
2. Guosheng Shi, Liang Chen, Yizhou Yang, Deyuan Li, Zhe Qian, Shanshan Liang, Long Yan, Lu Hua Li, Minghong Wu* and Haiping Fang*, Two-dimensional Na–Cl crystals of unconventional stoichiometries on graphene surface from dilute solution at ambient conditions., Nat. Chem., 2018, 10,776–779.
3. Xueliang Wang, Guosheng Shi, Shanshan Liang, Jian Liu, Deyuan Li, Gang Fang, Renduo Liu, Long Yan* and Haiping Fang*, Unexpectedly high salt accumulation inside carbon nanotubes soaked in very dilute salt solutions, Phys. Rev. Lett. 2018, 121, 226102
4. Liang Chen, Guosheng Shi, Jie Shen, Bingquan Peng, Bowu Zhang, Yuzhu Wang, Fenggang Bian, Jiajun Wang, Deyuan Li, Zhe Qian, Gang Xu, Gongping Liu, Jianrong Zeng, Lijuan Zhang, Yizhou Yang, Guoquan Zhou, Minghong Wu*, Wanqin Jin*, Jingye Li* Haiping Fang*, Ion sieving in graphene oxide membranes via cationic control of interlayer spacing, Nature, 2017, 550, 380.
5. Guosheng Shi, Yaru Dang, Tingting Pan, Xing Liu, Hui Liu, Shaoxian Li, Lijuan Zhang, Hongwei Zhao*, Shaoping Li, Jiaguang Han, Renzhong Tai, Yiming Zhu, Jichen Li, Qing Ji, R.A. Mole, Dehong Yu*, and Haiping Fang*, Unexpectedly enhanced solubility of aromatic amino acids and peptides in aqueous solution of divalent transition-metal cations, Phys. Rev. Lett., 2016, 117, 238102.
6. Jian Liu, Guosheng Shi*, Pan Guo, Jinrong Yang and Haiping Fang*, Blockage of Water Flow in Carbon Nanotubes by Ions due to Interactions between Cations and Aromatic Rings, Phys. Rev. Lett., 2015, 115, 164502.
7. Pan Guo, Yusong Tu*, Jinrong Yang, Chunlei Wang, Nan Sheng, Haiping Fang*,Water-COOH Composite Structure with Enhanced Hydrophobicity Formed by Water Molecules Embedded into Carboxyl-Terminated Self-Assembled Monolayers, Phys. Rev. Lett., 2015, 115, 186101.
8. Rongzheng Wan, Chunlei Wang, Xiaoling Lei, Guoquan Zhou and Haiping Fang*, Enhancement of water evaporation on solid surfaces with nanoscale hydrophobic-hydrophilic patterns, Phys. Rev. Lett., 2015, 115, 195901.
9. Zhao, Liang; Wang, Chunlei; Liu, Jian; Wen, Binghai; Tu, Yusong; Wang, Zuowei, Fang, Haiping, Reversible State Transition in Nanoconfined Aqueous Solutions, Phys. Rev. Lett., 2014, 112, 078301.
10. Song, Bo*; Sun, Qian; Li, Haikuo; Ge, Baosheng; Pan, Ji Sheng; Wee, Andrew Thye Shen; Zhang, Yong; Huang, Shaohua; Zhou, Ruhong; Gao, Xingyu*; Huang, Fang*; Fang Haiping, Irreversible Denaturation of Proteins through Aluminum-Induced Formation of Backbone Ring Structures, Angew. Chem. Int. Ed., 2014, 53, 6358.
11. Yusong Tu, Min Lv, Peng Xiu, Tien Huynh, Meng Zhang, Matteo Castelli, Zengrong Liu, Qing Huang*, Chunhai Fan, Haiping Fang and Ruhong Zhou*, Destructive extraction of phospholipids from Escherichia colimembranes by graphene nanosheets, Nature nanotech., 2013, 8, 594.
12. Manyi Duan, Bo Song,* Guosheng Shi, Haikuo Li, Guangfu Ji, Jun Hu, Xiangrong Chen,*and Haiping Fang*, Cation⊗3π:Cooperative Interaction of a Cation and Three Benzenes with an Anomalous Order in Binding Energy, J. Am. Chem. Soc., 2012, 134, 12104.
13. Bo Song, Junwei Yang, Jijun Zhao*, and Haiping Fang*, Intercalation and diffusion of lithium ions in a carbon nanotube bundle by ab initio molecular dynamics simulations, Energy Environ. Sci., 2011, 4, 1379.
14. Wei Gu, Bo Zhou, Tihamér Geyer, Michael Hutter, Haiping Fang* and Volkhard Helms*, Design of a gated molecular proton channel, Angew. Chem. Int. Ed., 2011, 50, 768.
15. Chunlei Wang, Hangjun Lu, Zhigang Wang, Peng Xiu, Bo Zhou, Guanghong Zuo, Rongzheng Wan, Jun Hu and Haiping Fang*,Stable Liquid Water Droplet on a Water Monolayer Formed at Room Temperature on Ionic Model Substrates, Phys. Rev. Lett., 2009, 103, 137801.
16. Peng Xiu, Bo Zhou, Wenpeng Qi, Hangjun Lu, Yusong Tu, and Haiping Fang*, Manipulating Biomolecules with Aqueous Liquids Confined within Single-walled Nanotubes, J. Am. Chem. Soc., 2009, 131, 2840.
17. Yusong Tu, Peng Xiu, Rongzheng Wan, Jun Hu, Ruhong Zhou* and Haiping Fang*, Water-mediated signal transduction with Y-shaped carbon nanotubes, Proc. Natl. Acad. Sci.USA, 2009, 106, 18120.
18. Xiaojing Gong, Jingyuan Li, Hangjun Lu, He Zhang and Haiping Fang*, Enhancement of Water Permeation across a Nanochannel by the Structure outside the Channel, Phys. Rev. Lett., 2008, 101, 257801.
19. Xiaojing Gong, Jingyuan Li, Hangjun Lu, Rongzheng Wan, Jichen Li, Jun Hu, and Haiping Fang*, A charge driven molecular water pump, Nature Nanotechnology, 2007, 2, 709.
20. Jingyuan Li, Xiaojing Gong, Hangjun Lu, Ding Li, Haiping Fang*, and Ruhong Zhou*, Electrostatic Gating of a Nanometer Water Channel, Proc. Natl. Acad. Sci. USA, 2007, 104, 3687.
21. Rongzheng Wan, Jingyuan Li, Hangjun Lu, Haiping Fang*, Controllable water channel gating of nanometer dimensions, J. Am. Chem. Soc., 2005, 127, 7166.