师资队伍

教师名录

李高进

工程力学系

电子邮件:gaojinli@sjtu.edu.cn
通讯地址:木兰船建大楼 B720
个人主页:https://sites.google.com/view/gaojinli/home

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

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。

fig1.jpg


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。


长期招收硕士、博士研究生、博士后,欢迎对流体力学研究感兴趣的优秀青年学子加入(理论,计算,实验不限)。 

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: 

《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 


科研项目:

1,磁场控制下的电对流稳定性分析与数值模拟研究,国家自然科学青年基金(2022/01-2024/12)

2,国家重大人才工程青年项目(2021/01-2023/12)


课题组成员研究内容:

硕士研究:蔡锦祥(磁场控制电对流数值仿真)

第40期PRP项目:刘子琛,朱博闻(波动板惯性同步理论分析)


过去成员研究内容:

本科毕业设计:闫玉涛(电对流三维数值仿真)

Google Scholar

(*corresponding author(s); †These authors contributed equally)


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


Before joining Shanghai Jiaotong University

24, S Stalin, P ChenG 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 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

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

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

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