陳曉東

2005/09-2011/01，北京航空航天大學宇航學院/美國賓夕法尼亞州立大學機械與核工程系 航空宇航推進理論與工程，聯合培養博士 導師：劉宇教授和Vigor Yang院士

2001/09-2005/06，北京航空航天大學宇航學院 飛行器動力工程（航天工程），學士 ^[1] 

2018/1-今，北京理工大學宇航學院力學系，研究員

2016/1-2018/1，中國科學院力學研究所，非線性力學國家重點實驗室，副研究員

2013/6-2015/12，中國科學院力學研究所，非線性力學國家重點實驗室，助理研究員

2011/02-2012/11，美國佐治亞理工學院，航空航天系，博士後（導師：Vigor Yang院士） ^[1] 

主要從事多相流體力學的基礎與應用研究，重點關注多相微流控器件中微粒生成與輸運過程中的基本規律、航空航天推進系統內液體霧化特性及液絲斷裂/液膜破碎機理。 ^[1] 

已發表：(†：共同一作，*：通訊作者)

1. X. Chen, C. Xue, G. Hu,* Confinements regulate capillary instabilities of fluid threads, submitted to Journal of Fluid Mechanics , under second review.

2. Y. Liu, Y. Guo, J. Zhao*, X. Chen, H. Zhang, G. Hu, X. Yu*, Z. Zhang*, Carbon fiber reinforced shape memory epoxy composites with superior mechanical performances, Composites Science and Technology , 2019, DOI: 10.1016/j.compscitech.2019.04.014.

3. C. Yin, S. Wang, Q. Ren, X. Shen, X. Chen, Y. Liu*, S. Liu*, Radial extracorporeal shock wave promotes the enhanced permeability and retention effect to reinforce cancer nanothermotherapeutics, Science Bulletin , 2019, DOI: 10.1016/j.scib.2019.04.017.

4. X. Chen*, V. Yang, Recent advances in physical understanding and quantitative prediction of impinging-jet dynamics and atomization, Chinese Journal of Aeronautics , 2019, 32(1): 45-57.

5. Y. Wang†, X. Chen†, K. Sun†, K. Li, F. Zhang, , B. Dai, J. Shen, G. Hu, S. Wang* Directional transport of centimeter-scale object on anisotropic microcilia surface under water, Science China Materials , 2018, 1-9.

6. T. Zhang, Y. Wang, F. Zhang, X. Chen, G. Hu, J. Meng*, S. Wang*, Bio-inspired superhydrophilic coatings with high anti-adhesion against mineral scales, NPG Asia Materials , 2018, 10(3), e471.

7. J. Su, X. Chen*, G. Hu*, Inertial migrations of cylindrical particles in rectangular microchannels: Variations of equilibrium positions and equivalent diameters, Physics of Fluids , 2018, 30(3), 032007.

8. Y. Liu, X. Chen*, A. Guo, S. Liu, G. Hu, Quantiative Assessments of mechanical responses upon radial extracorporel shock wave therapy, Advanced Science , 2018, 5(3): 1700797.

9. S. Dong, X. Chen, An improved model for thermal conductivity of nanofluids with effects of particle size and Brownian motion, Journal of Thermal Analysis and Calorimetry , 2017, 129 (2): 1255-1263.

10. X. Chen, Y. Sun, C. Xue, Y. Yu, G. Hu*, Tunable structures of compound droplets formed by collision of immiscible microdroplets, Microfluidics and Nanofluidics , 2017, 21:109.

11. X. Chen, Y. Song, D. Li, and G. Hu*, Deformation and interaction of droplet pairs in a microchannel under ac electric fields, Physical Review Applied , 2015, 4(2): 024005.

12. 陳曉東, 胡國慶*, 微流控器件中的多相流動, 力學進展 , 2015, 45: 201503.

13. X. Chen, Y. Sun, C. Xue, Y. Yu, G. Hu*, On the successful encapsulation of water droplets into oil droplets, Procedia Engineering , 2015, 126:725-729.

14. X. Chen, C. Xue, L. Zhang, G. Hu*, X. Jiang, J. Sun, Inertial Migration of Deformable Droplets in a Microchannel, Physics of Fluids , 2014, 26: 112003.

15. X. Chen, V. Yang*, Effect of Ambient Pressure on Liquid Swirl Injector Flow Dynamics, Physics of Fluids , 2014, 26: 102104.

16. X. Chen, V. Yang*, Thickness-based adaptive mesh refinement methods for multi-phase flow simulations with thin regions, Journal of Computational Physics , 2014, 269: 22-39.

17. X. Chen, D. Ma, V. Yang*, S. Popinet, High-Fidelity Simulations of Impinging Jet Atomization, Atomization Sprays , 2013, 23(12): 1079–1101.

18. 陳曉東, 劉宇, 楊威迦. 背壓對液體離心噴嘴噴霧錐的影響. 推進技術 , 201011, 31(5): 539-543.

19. 陳曉東, 劉宇, 楊威迦. 液體離心噴嘴中的靜態表面波. 推進技術 , 201002, 31(1): 42-46.

20. 陳曉東, 劉宇, 楊威迦. 背壓對液體離心噴嘴內液膜厚度的影響. 航空動力學報 , 201001, 25(1): 198-202.

21. 陳曉東, 楊文將, 劉宇, 段毅. 磁懸浮助推發射氣動力分析及風洞試驗. 航空動力學報 , 200709, 22(9): 1560-1564.

22. C. Xue, X. Chen, C. Liu, G. Hu. Lateral migration of dual droplet trains in a double spiral microchannel, Science China Physics, Mechanics & Astronomy , 59(7), 1-10 (2016)

23. Y. Sun, X. Chen, X. Zhou, J. Zhu, Y. Yu, Droplet-in-oil array for picoliter-scale analysis based on sequential inkjet printing, Lab on a Chip , 2015, 15(11): 2429-2436.

24. C. Liu, C. Xue, X. Chen, L. Shan, Y. Tian, G. Hu, Size-based separation of particles and cells utilizing viscoelastic effects in straight microchannels, Analytical Chemistry , 2015, 87: 6041-6048.

25. W. Yang, Y. Liu, X. Chen, Z. Wen, Y. Duan and M. Qiu. Levitation Characteristics of a High-Temperature Superconducting Maglev System for Launching Space Vehicles. Physica C: Superconductivity. 2007, 455(1-2): 13-18.

26. W. Yang, Y. Liu, Z. Wen, X. Chen and Y. Duan. Dynamic Force Properties of a High Temperature Superconducting Maglev Test Vehicle. IEEE Transactions on Applied Superconductivity . 2008, 18(2): 799-802.

27. W. Yang, Y. Liu, Z. Wen, X. Chen and Y. Duan. Hysteresis Force Loss and Damping Properties in a Practical Magnet-Superconductor Maglev Test Vehicle. Supercond. Sci. Technol. . 2008, 21, 015014.

28.Z. Wen, Y. Liu, W. Yang, X. Chen and Y. Duan. Investigation on Dynamic Response Properties of High-Tc Superconducting System: Application for the Maglev Test Vehicle. IEEE Transactions on Applied Superconductivity. 2008, 18 (2): 1549-1552.

29. W. Yang, M. Qiu, Y. Liu, Z. Wen, Y. Duan and X. Chen. Levitation Characteristics in an HTS Maglev :Launch Assist Test Vehicle. Superconductor Science and Technology , 2007,20(3): 281-286.

30. W. Yang, M. Qiu, Y. Liu, Z. Wen, Y. Duan and X. Chen. Levitation Characteristics in an HTS Maglev :Launch Assist Test Vehicle. Superconductor Science and Technology , 2007,20(3): 281-286. ^[1]