陳曉東(北京理工大學研究員，博導)

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，聯合培灶諒才養博士 導師：劉宇教授和Vigor Yang院戀采駝士

2001/09-2005/06，北京航空航天大學宇航學院 飛行器動力工程（航天工雄束良程），學士

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，美國喬治亞理工學院，航空航天系，博士後（導師：Vigor Yang院士）

主要從事多相流體力學的基礎與套用研趨船究，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多臭斷勸液民笑擊體霧化特性驗宙灑櫻及液絲斷裂/液膜破碎機理。

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.

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.