2020-9 至今, 厦门大学， 副教授
2019-4 至 2020-8, 耶鲁大学,  助理研究员
2014-6 至 2019-3, 耶鲁大学,  博士后，
2010-9 至 2012-9, 马克斯普朗克复杂系统物理研究所, 访问学生，
2008-9 至 2014-1, 清华大学, 理论物理, 博士,
2004-9至2008-7，吉林大学, 信息与计算科学, 学士。

2022. 中国科学院理论物理所彭桓武青年学者
2020. 厦门大学南强B学者

1.    Boundary flow induced membrane tubulation under turgor pressures. H Xue, R Ma*. Membranes 2025. 15(4).
2.    Asymmetrical calcium ions induced stress and remodeling in lipid bilayer membranes. C Liu, Q Zhong, K Kang, R Ma*, C Song* , Physical Chemistry Chemical Physics. 2025. 27 (2).
3.    Vesiculation pathways in clathrin-mediated endocytosis. X Wang, J Berro*, R Ma*. eLife. 2024. 13:RP102591
4.    Surface-induced interaction of colloidal particles in isotropic liquid crystals. H Zhang, K Weng, R Ma*. Communications in Theoretical Physics. 2024. 76 (7), 075601.
5.    Cellular uptake of active nonspherical nanoparticles. K Xiao, J Li, R Ma*, CX Wu*. Journal of Applied Physics. 2024. 135, 184702
6.    Determination of Gaussian curvature modulus and spontaneous curvature via membrane buckling. MT Wang, GX Jiang, CX Wu*, R Ma*. Communications in Theoretical Physics. 2024. 108.034802.
7.    Inferring biophysical properties of membranes during endocytosis using machine learning. Z Lin, Z Mao*, R Ma*. Soft Matter. 2024. 20 (3), 651-660.
8.    Spontaneous stable rotation of flocking flexible active matter. G Jiang, Z You, R Ma*, C Wu*. Soft Matter. 2024. 20 (26), 5086-5094
9.    Membrane buckling and the determination of Gaussian curvature modulus. MT Wang, R Ma*, CX Wu*. Physical Review E. 2023. 108 (3), 034802.
10.    Pressure-driven membrane inflation through nanopores on the cell wall. Q Zhong, CX Wu*, R Ma*. Chinese Physics B. 2023. 32 (8), 088704.
11.    Vesiculation mechanisms mediated by anisotropic proteins. K Xiao, CX Wu*, R Ma*. Physical Review Research. 2023. 5 (2), 023176.
12.    Wrapping dynamics and critical conditions for active nanoparticle uptake. K Xiao, R Ma, CX Wu. Physical Review E. 2023. 107 (5), 054401.
13.    Force-induced wrapping phase transition in activated cellular uptake. K Xiao, R Ma*, CX Wu*. Physical Review E. 2022 106 (4), 044411.
14.    Electrostatics in a tortuous nanochannel in a newly developed curvilinear coordinate system. X Chen, K Xiao, R Ma, X Cao, CX Wu*. Chinese Journal of Physics. 2022. 77, 1040-1047.
15.    Endocytosis against high turgor pressure is made easier by partial coating and freely rotating base. Rui Ma*, Julien Berro*. Biophysical Journal. 2021. 120 (9), 1625-1640.
16.    Structural organization and energy storage in crosslinked actin assemblies. Rui Ma*, Julien Berro*. PLoS Comput. Biol, 2018. 14(5): e1006150. Recommended by Fprime1000.
17.    General theory for the mechanics of confined microtubule asters.  Rui Ma, Liedewij Laan, Marileen Dogterom, Nenad Pavin*, Frank Jülicher*. New Journal of Physics. 2014. 16 (1), 013018.
18.    Active phase and amplitude fluctuations of flagellar beating. Rui Ma, Gary S Klindt, Ingmar H Riedel-Kruse, Frank Jülicher*, Benjamin M Friedrich*. Physical review letters.2014. 113 (4), 048101.

国家自然科学基金面上基金，细胞膜融合过程的连续介质力学理论
国家自然科学基金青年基金，胞吞作用中细胞膜动力学的研究，            
厦门大学校长基金，渗透压对胞吞作用中膜形变的力学影响，

生物物理和软凝聚态，理论物理