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力学、机械、能源、材料、化工相关背景均可，每年招收研究生1-2名

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2019.04     至 今      中国科学院                         力学研究所                            副研究员

2015.02 - 2019.03    ANL/UChicago                    MSD/PME                              Postdoc

2010.08 - 2014.12    Clemson University             Mechanical Engineering         PhD

2006.09 - 2010.06    华中科技大学                     工程力学                                学士

1. Electrocapillarity-induced hurricane-in-a-tube enables the generation and patterning of liquid metal droplets. Advanced Functional Materials, 2409341, 2024
2. Single-atom catalysts through pressure-controlled metal diffusion. Journal of the American Chemical Society, 146(29):19886-19895, 2024
3. Particulate transport in the low-Reynolds-number fluid confined in a spherical cavity. Chinese Journal of Theoretical and Applied Mechanics, 56(5):1-13, 2024
4. Manipulation of Contact Angle Hysteresis at Electrified Ionic Liquid-Solid Interfaces. Physical Review Letters, 132(4):044002, 2024
5. Electric-field-induced ion evaporation from the ionic liquid–vacuum interface. Physics of Fluids, 35(12):122009, 2023 (Editor’s Pick)
6. Single-particle dynamics in a low-Reynolds-number fluid under spherical confinement. Journal of Fluid Mechanics, 969:A15, 2023
7. Heterogeneous nanostructures cause anomalous diffusion in lipid monolayers. ACS Nano, 16(10):16054-16066, 2022
8. Motion of a sphere and the suspending low-Reynolds-number fluid confined in a cubic cavity. Theoretical and Applied Mechanics Letters, 12(4):100352, 2022 (Invited)
9. Non-monotonic variation of flow strength in nanochannels grafted with end-charged polyelectrolyte layers. RSC Advances, 12(7):4061-4071, 2022
10. Electric field-driven ion emission from the free surface of room-temperature ionic liquids. Journal of Physical Chemistry Letters, 12(1):711-716, 2021
11. Structure and dynamics of hydrodynamically interacting finite-size Brownian particles in a spherical cavity: spheres and cylinders. Journal of Chemical Physics, 152(20):204109, 2020
12. Shape induced segregation and anomalous particle transport under spherical confinement. Physics of Fluids, 32(5):053307, 2020 (Featured article)
13. Transport and structure of room-temperature ionic liquids in conical nanopores under external electric fields. Journal of Physical Chemistry C, 124(10):5817-5828, 2020
14. Hydrodynamic properties of polymers screening the electrokinetic flow: insights from a computational study. Polymers, 11(6):1038, 2019
15. Evolutionary strategy for inverse charge measurements of dielectric particles. Journal of Chemical Physics, 148(23):234302, 2018
16. SSAGES: Software suite for advanced general ensemble simulations. Journal of Chemical Physics, 148(4):044104, 2018 (Editors’ Choice)
17. Parallel O(N) Stokes' solver towards scalable Brownian dynamics of hydrodynamically interacting objects in general geometries, Journal of Chemical Physics, 146(24):244114, 2017 (Editors’ Choice)
18. An O(N) and parallel approach to integral problems by a kernel-independent fast multipole method: Application to polarization and magnetization of interacting particles, Journal of Chemical Physics, 145(6):064307, 2016
19. Current rectification for transport of room-temperature ionic liquids through conical nanopores, Journal of Physical Chemistry C, 120(8):4629-4637, 2016
20. Water in ionic liquids at electrified interfaces: the anatomy of electrosorption, ACS Nano, 8(11):11685-11694, 2014
21. Dynamics of electrical double layer formation in room-temperature ionic liquids under constant-current charging conditions, Journal of Physics: Condensed Matter, 26(28):284109, 2014
22. Electro-induced dewetting and concomitant ionic current avalanche in nanopores, Journal of Physical Chemistry Letters, 4(18):3120-3126, 2013
23. Electrokinetic transport in room-temperature ionic liquids: amplification by short-wavelength hydrodynamics, Journal of Physical Chemistry C, 116(1):1133-1138, 2011