张朋飞,男
学位:博士
职称:研究员
导师身份:博士生导师
职位:特聘研究员
邮箱:pfzhangphy@dhu.edu.cn
课题组主页:
https://calm.dhu.edu.cn/2018/0702/c14870a198430/page.htm
研究方向
1.软物质,高分子物理,嵌段共聚物,聚合物刷,聚电解质
2.相行为,结构和性能,自组装,表面和界面性质
3.统计物理,计算机模拟,理论,机器学习,材料基因组
获得奖项与荣誉
1. 上海高校特聘教授(东方学者)岗位计划,2021
2. 松江区第五届拔尖人才计划,2020
近年来承担的主要科研项目
1. 国家自然科学基金面上项目,聚电解质溶液的溶胶-凝胶转变和复合凝聚的理论研究,2021-2024
2. 国家自然科学基金青年项目,聚电解质溶液相行为的巨正则系综蒙特卡罗模拟研究,2019-2021
教育背景与工作经历
2018.06-至今 澳门·永利集团3044先进低维材料中心特聘研究员2015.04-2018.05 美国加州理工学院博士后2014.10-2015.03 美国加州大学河滨分校博士后2011.09-2014.09 美国科罗拉多州立大学博士后2008.09-2011.06 南开大学物理科学学院博士研究生2005.09-2008.06 南开大学物理科学学院硕士研究生2001.09-2005.06 天津大学应用物理系 本科
代表性论文
1. Pengfei Zhang*, Zheng Wang, and Zhen-Gang Wang, “Conformation Transition of a Homopolymer Chain in Binary Mixed Solvents”, Macromolecules, 56, 153-165 (2022).
2. Pengfei Zhang* and Zhen-Gang Wang*, “Supernatant Phase in Polyelectrolyte Complex Coacervation: Cluster Formation, Binodal, and Nucleation”, Macromolecules, 55, 3910-3923 (2022).
3. Shensheng Chen, Pengfei Zhang and Zhen-Gang Wang*, “Complexation between Oppositely Charged Polyelectrolytes in Dilute Solution: Effects of Charge Asymmetry”, Macromolecules, 55, 3898-3909 (2022).
4. C. Balzer, Pengfei Zhang, Zhen-Gang Wang*, “Wetting Behavior of Polyelectrolyte Complex Coacervates on Solid Surfaces”, Soft Matter, 18, 6326-6339 (2022).
5. Chun-Lai Ren*, Yue Shan, Pengfei Zhang, Hongming Ding*, Yu-Qiang Ma*, “Uncovering the Molecular Mechanism for Dual Effect of ATP on Phase Separation in FUS Solution”, Science Advances, 8, eabo7885 (2022).
6. Caihong Zhang, Weijie Wang, Pengfei Zhang, Shuguang Yang*, “Thermodynamic Analysis of Hydrogen-bonded Polymer Complexation with Isothermal Titration Calorimetry”, Polymer, 256, 125196 (2022).
7. Pengfei Zhang* and Zhen-Gang Wang*, “Interfacial Structure and Tension of Polyelectrolyte Complex Coacervates”, Macromolecules, 54, 10994-11007 (2021).
8. Andrew S. Ylitalo, Christopher Balzer, Pengfei Zhang, and Zhen-Gang Wang*, “Electrostatic Correlations and Temperature-Dependent Dielectric Constant Can Model LCST in Polyelectrolyte Complex Coacervation”, Macromolecules, 54, 11326-11337 (2021).
9. Pengfei Zhang*, “Critical Depletion, Adsorption, and Intersurface Interaction in Polymer Solutions: A Mean-Field Theory Study”, Macromolecules, 54, 3790-3799 (2021).
10. Xuejing Wang, Pengfei Zhang, Liangfei Tian, “Spatiotemporal organization of coacervate microdroplets”, Curr Opin Colloid Interface Sci, 52, 101420 (2021).
11. Pengfei Zhang, Nayef M. Alsaifi, and Zhen-Gang Wang*, “Revisiting the Θ Point”, Macromolecules, 53, 10409-10420 (2020).
12. Pengfei Zhang, Qiang Wang*, “Interactions between Colloidal Particles Mediated by Nonadsorbing Polymers: Casimir and Anti-Casimir Effects”, Macromolecules, 53, 8883-8888 (2020).
13. Wentao Huang, Jiefu Li, Dezhong Liu, Shuaixia Tan, Pengfei Zhang, Liping Zhu, and Shuguang Yang*, “Polyelectrolyte Complex Fiber of Alginate and Poly(diallyldimethylammonium chloride): Humidity-Induced Shape Memory and Mechanical Transition”, ACS Applied Polymer Materials, 2, 2119-2125 (2020).
14. Pengfei Zhang, Qiang Wang*, “Repulsion between Colloidal Particles Mediated by Nonadsorbing Polymers: Lattice Monte Carlo Simulations and the Corresponding Self-Consistent Field Calculations”, Macromolecules, 52, 5777−5790 (2019).
15. Pengfei Zhang, Kevin Shen, Nayef M. Alsaifi, and Zhen-Gang Wang*, “Salt Partitioning in Complex Coacervation of Symmetric Polyelectrolytes”, Macromolecules, 51, 5586−5593 (2018).
16. Pengfei Zhang, Nayef M. Alsaifi, Jianzhong Wu, and Zhen-Gang Wang*, “Polyelectrolyte Complex Coacervation: Effects of Concentration Asymmetry”, J. Chem. Phys. 149, 163303 (2018).
17. Kun Liu, Pengfei Zhang, and Jianzhong Wu*, “Does Capillary Evaporation Limit the Accessibility of Nonaqueous Electrolytes to the Ultra-small Pores of Carbon Electrodes?”, J. Chem. Phys. 149, 234708 (2018).
18. Pengfei Zhang, Nayef M. Alsaifi, Jianzhong Wu and Zhen-Gang Wang*, “Salting-Out and Salting-In of Polyelectrolyte Solutions: A Liquid-State Theory Study”, Macromolecules, 49, 9720-9730 (2016).
19. Pengfei Zhang and Qiang Wang*, “Quantitative Study of Fluctuation Effects by Fast Lattice Monte Carlo Simulations. VI. Phase Behavior of Incompressible Symmetric Binary Homopolymer Blends”, Polymer, 101,7-14 (2016).
20. Pengfei Zhang and Qiang Wang*, “Calculating Pressure in Polymer Lattice Simulations”, Soft Matter, 11, 862-870 (2015).
21. Pengfei Zhang and Qiang Wang*, “Quantitative Study of Fluctuation Effects by Fast Lattice Monte Carlo Simulations: V. Incompressible Homopolymer Melts”, J. Phys. Chem. B, 118, 12059-12067 (2014).
22. Pengfei Zhang and Qiang Wang*, “Quantitative Study of Fluctuation Effects by Fast Lattice Monte Carlo Simulations: Compression of Grafted Homopolymers”, J. Chem. Phys., 140, 044904 (2014).
23. Pengfei Zhang and Qiang Wang*, “Solvent Entropy and Coarse-Graining of Polymer Lattice Models”, Soft Matter, 9, 11183-11187 (2013).
24. Pengfei Zhang, Baohui Li, and Qiang Wang*, “Quantitative Study of Fluctuation Effects by Fast Lattice Monte Carlo Simulations. III. Homopolymer Brush in an Explicit Solvent”, Macromolecules, 45, 2537-2550(2012).
25. Pengfei Zhang, Baohui Li, and Qiang Wang*, “Quantitative Study of Fluctuation Effects by Fast Lattice Monte Carlo Simulations. II. Homopolymer Brush in an Implicit, Good Solvent”, Macromolecules, 44,7837-7852 (2011).
26. Pengfei Zhang, Xinghua Zhang, Baohui Li, and Qiang Wang*, “Quantitative Study of Fluctuation Effects by Fast Lattice Monte Carlo Simulations. I. Compressible Homopolymer Melts”, Soft Matter, 7, 4461-4471 (2011).