娱乐城平台

1999-2003，南京大学化学化工娱乐城平台 ，化学学士

2003-2008，南京大学化学化工娱乐城平台 ，高分子化学与物理博士

2008-2013，德国 Max Planck 胶体与界面所，博士后

2013-2014，德国 Jülich 研究中心，博士后

2014-        ，娱乐城平台-拉斯维加斯娱乐城平台 ，副教授（现为博士生导师）

主讲课程

1.《化学原理》，本科生平台课，大一学年（2025年秋季学期起）

2.《复杂体系分子模拟导论》，本研贯通及国际化课程，秋季学期

3.《大学化学》，本科生平台课（2025年起因课程改革变更为《化学原理》）

注：课程答疑时间为每周一至五的工作时间，地点为拉斯维加斯娱乐城平台 C208。

科研情况

研究方向为软物质体系的计算机模拟与理论。主持国家自然科学基金（NSFC）青年项目（1项）、面上项目（2项）以及国际（地区）合作与交流项目（1项），参与 NSFC 重点项目（1项）以及国家重点研发计划项目课题（1项）。部分研究成果如下：

30. R. Hou, J. Hu*, Single-cell memory matters in collective migration, Biophys. J. In press (2025).

29. J. Gao, Y. Shen, S. Komura, W. Hu*, L. Shen*, J. Hu*, Polymer sailing on rafts within lipid membranes, Proc. Natl. Acad. Sci. U.S.A. 122(27): e2503203122 (2025).

28. R. Hou^‡, J. Gao^‡, J. Chen, R. Wang, B. Rozycki*, J. Hu*, Binding of Soluble Ligands to Membrane Receptors: A Molecular Dynamics Simulation Study, J. Phys. Chem. B 129(29): 7475-7482 (2025).

27. R. Hou^‡, S. Ren^‡, R. Wang, B. Rozycki*, J. Hu*, Multiscale Simulations of Membrane Adhesion Mediated by CD47-SIRPa Complexes, J. Comput. Theory Chem. 21(4): 2030-2042 (2025).

26. P. Feng^‡, C. Gui^‡, G. Wang, L. Wang, J. Hu*, X. Gong*, G. Zhang, Pairwise encounters boost bacterial motion by transient velocity spikes, Biophys. J. 124(13): 2209-2221 (2025).

25. J. Gao^‡, R. Hou^‡, W. Hu*, T. R. Weikl*, J. Hu*, Which coverages of Arc-Shaped Proteins Are Required for Membrane Tubulation? J. Phys. Chem. B 128(19): 4735-4740 (2024).

24. L. Li^‡, R. Hou^‡, X. Shi, J. Ji*, B. Rozycki*, J. Hu*, F. Song, Contraol of cell membrane receptor condensation by adhesion to supported bilayers with nanoscale topography, Commun. Phys. 7: 174 (2024).

23. L. Li, J. Ji*, F. Song, J. Hu*, Intercellular Receptor-ligand Binding: Effect of Protein-membrane Interaction, J. Mol. Biol. 435(1): 167787 (2023).

22. T. Li^‡, Z. Liu^‡, J. Hu^‡, et al., A Universal Chemotactic Targeted Delivery Strategy for Inflammatory Diseases, Adv. Mater. 34(47): 2206654 (2022).

21. D. Liu, Z. Zhang, R. Wang*, J. Hu*, Stability and Deformation of Vesicles in a Cylindrical Flow, Langmuir 38(2): 629-637 (2022).

20. J. Gao, R. Hou, L. Li, J. Hu*, Membrane-Mediated Interactions Between Protein Inclusions, Front. Mol. Biosci. 8: 811711 (2021).

19. L. Li, J. Hu*, H. Wu*, F. Song*, Cis-interaction of ligands on a supported lipid bilayer affects their binding to cell adhesion receptors, Sci. China Phys. Mech. Astron. 64(10): 10872 (2021).

18. L. Li, J. Gao, Y. Shao*, F. Song, J. Hu*, Tuning cell adhesion on supported lipid bilayers via nanoscale geometry, Soft Matter 17(45): 10376-10382 (2021).

17. L. Li, J. Hu*, B. Rozycki*, X. Wang, H. Wu, F. Song, Influence of lipid rafts on pattern formation during T-cell adhesion, New J. Phys. 23(4): 043052 (2021).

16. L. Li, J. Hu*, X. Shi, B. Rozycki*, F. Song*, Interplay between cooperativity of intercellular receptor-ligand binding and coalescence of nanoscale lipid clusters in adhering membranes, Soft Matter 17(7): 1912-1920 (2021).

15. C. Zhu, W. Jiang*, J. Hu*, P. Sun, A.-M. Li, Q. Zhang, Facile preparation of PLA nonwoven fabric with surface modification by stereocomplex crystals for recyclable use in oil/water separation, ACS Appl. Polym. Mater. 2(7): 2509-2516 (2020).

14. L. Li, J. Hu*, B. Rozycki*, F. Song*, Intercellular Receptor−Ligand Binding and Thermal Fluctuations Facilitate Receptor Aggregation in Adhering Membranes, Nano Lett. 20(1): 722-728 (2020).

13. T. R. Weikl*, J. Hu, B. Kav, B. Rozycki, Chapter 4 - Binding and segregation of proteins in membrane adhesion: theory, modeling, and simulations, in: R. Lipowsky (Ed.), “Advances in Biomembranes and Lipid Self-Assembly”, Vol. 30, Academic Press, Elsevier (2019).

12. L. Li, J. Hu*, L. Li, F. Song*, Binding constant of membrane-anchored receptors and ligands that induce membrane curvatures, Soft Matter 15(17): 3507-3514 (2019).

11. Q. Yu^‡, J. Hu^‡, Y. Hu, R. Wang*, Significance of the DNA bond strength in programmable nanoparticle thermodynamics and dynamics, Soft Matter 14(14): 2665-2670 (2018).

10. L. Li, J. Hu*, G. Xu, F. Song*, Binding constant of cell adhesion receptors and substrate-immobilized ligands depends on the distribution of ligands, Phys. Rev. E 97: 012405 (2018).

9. L. Li, J. Hu*, X. Shi, Y. Shao, F. Song*, Lipid rafts enhance the binding constant of membrane-anchored receptors and ligands, Soft Matter 13(23): 4294-4304 (2017).

8. G. L. Li*, J. Hu*, H. Wang, C. Pilz-Allen, J. Wang, T. Qi, H. Moehwald, D. G. Shchukin, Polymer-decorated anisotropic silica nanotubes with combined shape and surface properties for guest delivery, Polymer 109: 332-338 (2017).

7. T. R. Weikl, J. Hu, G.-K. Xu, R. Lipowsky, Binding equilibrium and kinetics of membrane-anchored receptors and ligands in cell adhesion: Insights from computational model systems and theory, Cell Adhes. Migr. 10(5): 576-589 (2016).

6. T. Eisenstecken, J. Hu, R. G. Winkler, Bacterial swarmer cells in confinement: a mesoscale hydrodynamic simulation study, Soft Matter 12(40): 8316-8326 (2016).

5. J. Hu, G.-K. Xu, R. Lipowsky & T. R. Weikl, Binding kinetics of membrane-anchored receptors and ligands: Molecular dynamics simulations and theory, J. Chem. Phys. 143(24): 243137 (2015).

4. J. Hu, M. Yang, G. Gompper & R. G. Winkler, Modelling the mechanics and hydrodynamics of swimming E. coli, Soft Matter 11(40): 7867-7876 (2015).

3. J. Hu, A. Wysocki, R. G. Winkler & G. Gompper, Physical Sensing of Surface Properties by Microswimmers – Directing Bacterial Motion via Wall Slip, Sci. Rep. 5: 9586 (2015).

2. J. Hu, R. Lipowsky & T. R. Weikl, Binding constants of membrane-anchored receptors and ligands depend strongly on the nanoscale roughness of membranes, Proc. Natl. Acad. Sci. U.S.A. 110(38): 15283-15288 (2013).

1. J. Hu, T. Weikl & R. Lipowsky, Vesicles with multiple membrane domains, Soft Matter 7(13): 6092-6102 (2011).