李高进 - 上海交通大学 - 船舶海洋与建筑工程学院

个人简介

工作经历： 2021.3～上海交通大学船建学院长聘教轨副教授（国家级青年人才） 2017.1～2020.11 康奈尔大学化学与生物分子工程系博士后导师：Donald Koch，Lynden Archer 教育经历： 2012.8～2016.12 普渡大学机械工程系博士导师：Arezoo Ardekani 2009.9～2012.7 中国科学技术大学近代力学系硕士导师：陆夕云 2005.9～2009.7 中国科学技术大学近代力学系学士科研项目： 1，国家自然科学青年基金，磁场控制下的电对流稳定性分析与数值模拟研究，12102258，主持（2022/01-2024/12） 2，国家重大人才工程青年项目，主持（2021/01-2023/12）课题组成员研究: 博士后：赵东晓（多相流湍流）博士生：郑龙涛（多相流数值模拟），王宇航（微液滴运动）硕士生：蔡锦祥（磁场控制电对流数值仿真）本科生：刘子琛，朱博闻（波动板惯性同步理论分析，第40期PRP项目）过去成员研究：本科生：闫玉涛2022（电对流三维数值仿真）教学工作工程力学实验：拉伸压缩实验，2021秋理论力学实验：连杆质心与转动惯量测量，2021秋工程流体力学，2022秋力学创新实验，2022秋流体力学中的现代数值方法（Ⅰ），研究生课程，2023春荣誉和奖励国家级青年人才，2020 普渡大学Ward A. Lambert 研究生奖, 2016 中国自费留学生奖学金, 2015

研究领域

电磁流体力学针对微流控芯片、新型电池技术、电磁信号探测、高超声速流动、智能磁粉探伤等不同应用场景，提炼其中的关键科学问题，发展电磁场-流场耦合的数学理论和数值计算方法。微尺度流动微尺度流动广泛存在于微生物运动、微加工技术、生物制药技术、化学工业等问题中。受界面效应、布朗运动、复杂流体效应等作用，微尺度流动常表现出不同于宏观流动的特征。深入研究这些独特的流体现象，有助于进一步推动微操作和微加工技术的发展，实现常规方法所难以完成的功能。仿生流体力学与自然界中生物的飞行、游动方式相比，人类现有的技术方式在高速、高载荷等方面具有显著优势。但在一些非传统应用场景中，生物的运动方式具有低能耗、低可探测性、高机动性方面的优势，因而愈发受到人们的重视。如何利用力学分析和机械加工手段，实现新型仿生设计与现有电子、机械技术的有机结合，是本研究的核心。多相流和高分子流动多相流和高分子流动广泛存在于人们的日常生活和工业应用中。其中涉及界面演化、多体相互作用、传热传质过程、多尺度流场结构演化等复杂问题，本研究主要通过数值模拟分析解释复杂现象背后的关键物理规律。数值方法研究基于有限体积、有限元、边界元、谱方法等数值模拟方法，发展高效、高精度的数值程序，解决不同的科学问题。

近期论文

查看导师最新文章（温馨提示：请注意重名现象，建议点开原文通过作者单位确认）

Google Scholar (*corresponding author(s); †These authors contributed equally) 29. A Sharma, A Mukherjee, A Warren, S Jin, G Li, DL Koch, LA Archer, Langmuir 39, 2022 28. G Li, DL Koch, Dynamics of a self-propelled compound droplet, Journal of Fluid Mechanics 952, 2022 27. G Li, Swimming dynamics of a self-propelled droplet, Journal of Fluid Mechanics 934, 2022 26. G Li, A Townsend, LA Archer, DL Koch, Electroconvection near an ion-selective surface with Butler–Volmer kinetics, Journal of Fluid Mechanics 930, A26, 2022 25. G Li, E Lauga, AM Ardekani, Microswimming in viscoelastic fluids, Journal of Non-Newtonian Fluid Mechanics 297, 104655, 2021 24. S Stalin†, P Chen†, G Li†, Y Deng, Z Rouse, Y Cheng, Z Zhang, P Biswal, S Jin, SP Baker, R Yang, LA Archer, Ultrathin zwitterionic polymeric interphases for stable lithium metal anodes. Matter 4(11), 3753-3773, 2021 23. G Li, A Townsend, LA Archer, DL Koch, Suppression of electroconvective and morphological instabilities by an imposed cross-flow of the electrolyte, Physical Review Fluids 6(3), 033701, 2021 22. A Warren, A Sharma, D Zhang, G Li, LA Archer, Structure and Dynamics of Electric-Field-Driven Convective Flows at the Interface between Liquid Electrolytes and Ion-Selective Membranes, Langmuir 37, 2021 21. MC Ma, G Li, X Chen, LA Archer, J Wan, Suppression of dendrite growth by cross-flow in microfluidics, Science Advances 7(8), eabf6941, 2021 20. S Choudhury, G Li, RR Singh, A Warren, X Liu, LA Archer, Structure, Rheology, and Electrokinetics of Soft Colloidal Suspension Electrolytes, Langmuir 66(31), 9047-9053, 2020 19. G Li, DL Koch, Electrophoresis in dilute polymer solutions, Journal of Fluid Mechanics 884, A9, 2020 18. J Zheng, J Yin, D Zhang, G Li, DC Bock, T Tang, Q Zhao, X Liu, A Warren, Spontaneous and field-induced crystallographic reorientation of metal electrodeposits at battery anodes, Science advances 6(25), eabb1122, 2020 17. S Stalin, M Tikekar, P Biswal, G Li, H Johnson, Y Deng, Q Zhao, D Vu, Designing polymeric interphases for stable lithium metal deposition, Nano Letters 20(8), 5749-5758, 2020 16. D Zhang, AJ Warren, G Li, Z Cheng, X Han, Q Zhao, X Liu, Y Deng, Electrodeposition of zinc in aqueous electrolytes containing high molecular weight polymers, Macromolecules 53(7), 2694-2701, 2020 15. S Choudhury, G Li, RR Singh, A Warren, X Liu, LA Archer, Structure, Rheology, and Electrokinetics of Soft Colloidal Suspension Electrolytes, Langmuir 36(31), 9047-9053, 2020 14. G Li, LA Archer, DL Koch, Electroconvection in a viscoelastic electrolyte, Physical Review Letters 122(12), 124501, 2019 13. MD Tikekar, G Li, LA Archer, DL Koch, Electroconvection and morphological instabilities in potentiostatic electrodeposition across liquid electrolytes with polymer additives, Journal of The Electrochemical Society 165 (16), A3697, 2018 12. S Wei, Z Cheng, P Nath, MD Tikekar, G Li, LA Archer, Stabilizing electrochemical interfaces in viscoelastic liquid electrolytes, Science advances 4(3), eaao6243, 2018 11. Y Zhang, G Li, AM Ardekani, Reduced viscosity for flagella moving in a solution of long polymer chains, Physical Review Fluids 3(2), 023101, 2018 10. G Li, AM Ardekani, Collective motion of microorganisms in a viscoelastic fluid, Physical Review Letters 117(11), 118001, 2016 9. G Li, A Ostace, AM Ardekani, Hydrodynamic interaction of swimming organisms in an inertial regime, Physical Review E 94(5), 053104, 2016 8. G Li, AM Ardekani, Undulatory swimming in non-Newtonian fluids, Journal of Fluid Mechanics 784, 2015 7. G Li, GH McKinley, AM Ardekani, Dynamics of particle migration in channel flow of viscoelastic fluids, Journal of Fluid Mechanics 785, 486-505, 2015 6. G Li, A Karimi, AM Ardekani, Effect of solid boundaries on swimming dynamics of microorganisms in a viscoelastic fluid, Rheologica Acta 53, 911-926, 2014 5. G Li, AM Ardekani, Hydrodynamic interaction of microswimmers near a wall, Physical Review E 90(1), 013010, 2014 4. G Li, NS Liu, XY Lu, Dynamic performance and wake structure of flapping plates with different shapes, Acta Mechanica Sinica 30(6), 800-808, 2014 3. G Li, L Zhu, X Lu, Numerical studies on locomotion performance of fish-like tail fins, Journal of Hydrodynamics, Ser. B 24(4), 488-495, 2012 2. G Li, XY Lu, Force and power of flapping plates in a fluid, Journal of Fluid Mechanics 712, 598, 2012 1. Z Li, G Li, H Huang, X Lu, Lattice Boltzmann study of electrohydrodynamic drop deformation with large density ratio, International Journal of Modern Physics C 22(07), 729-744, 2011

学术兼职

学术团体：美国物理学会会员美国工业与应用数学学会会员期刊服务： Biomicrofluidics Early Career Advisory Board Member 《应用力学学报》青年编委 Journal of Fluid Mechanics, Physical Review Letters, Physical Review E, Physical Review Fluids, Physical Review Materials, Soft Matter, Communications Physics 等学术期刊审稿人