个人简介
教育经历
1991.9 - 1996.7 复旦大学 流体力学 博士
1987.9 - 1991.7 复旦大学 力学 学士
1984.9 - 1987.7 湖南省石门县第一中学
工作经历
2022.1 - 至今 大连理工大学光电工程与仪器科学学院 党委书记
1995.5 - 2005.10 复旦大学 副教授
2010.7 - 至今 大连理工大学 教授
2007.7 - 2010.4 新加坡国立大学 研究员
2005.11 - 2007.12 上海交通大学 副教授
2002.10 - 2004.9 东京大学 公派博士后
1996.8 - 1995.5 复旦大学 讲师
社会兼职
2020.1 - 2020.12 编委(力学季刊)
2020.1 - 2020.12 编委(水动力学研究与进展A辑)
2020.1 - 2020.12 编委(Journal of Hydrodynamics Ser B)
近期论文
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1. Yu M, Li YJ*, Yang YN, Xue CD, Xin GY, Liu B, Qin KR*. A microfluidic array enabling generation of identical biochemical stimulating signals to trapped biological cells for single-cell dynamics. Talanta, 2024, 267(15): 125172, Jan. 2024 .
2. Zeng X, Xue CD, Li YJ*, Qin KR*. A mathematical model for intracellular NO and ROS dynamics in vascular endothelial cells activated by exercise-induced wall shear stress. Mathematical Biosciences, 2023, 359: 09009, 20 April 2023.
3. Yu M, Li YJ*, Liu SX, Xue CD,Qin KR*. Simplifying biochemical signal transport in steady flows within a single-cell-trapping microchannel by linear low order systems, Microfluidics and Nanofluidics, 2023, 27(2):17, Jan., 2023 .
4. Xue CD*, Qu HC, Zheng GS, Qin KR*, Zhao DW*. Understanding the diffusive transport of nanoparticles in agarose hydrogels. Physics of Fluids, 2022, 34(12): 122001, Dec., 2022 .
5. Na JT#, Xue CD#, Wang YX, Li YJ, Wang Y, Liu B,Qin KR*. Fabricating a multi-component microfluidic system for exercise-induced endothelial cell mechanobiology guided by hemodynamic similarity. Talanta, 2022, 253:123933, Sep., 2022.
6. Xue CD, Zheng ZY, Zheng GS, Zhao DW*, Qin KR*. Vortex evolution patterns for flow of dilute polymer solutions in confined microfluidic cavities, Soft Matter, 2022, 18, 3867-3877, May 2022.
7. Zeng X, Xue CD*, Chen KJ, Li YJ, Qin KR*. Deep-learning-assisted extraction of height-averaged velocity from scalar signal transport in a shallow microfluidic channel, Microfluidics and Nanofluidics, 2022, 26(5):36, April, 2022 .
8. Chen KJ, Qin KR*. Microbial transport and dispersion in heterogeneous flows created by pillar arrays, Physics of Fluids, 2022, 34(2): 023308, Feb, 2022.
9. Na JT, Hu SY, Xue CD*, Wang YX, Chen KJ, Li YJ, Wang Y, Qin KR*. A microfluidic system for precisely reproducing physiological blood pressure and wall shear stress to endothelial cells, Analyst, 2021,146: 5913- 5922, Aug., 2021.
10. Yuan WM, Xue CD*, Qin KR *.The intracellular calcium dynamics in a single vascular endothelial cell being squeezed through a narrow microfluidic channel, Biomechanics and Modeling in Mechanobiology, 2021, 20(1): 55-67, Feb., 2021.
11. Shen H, Li SQ, Wang Y, Qin KR*. Effects of the arterial radius and the center-line velocity on the conductivity and electrical impedance of pulsatile flow in the human common carotid artery. Medical & Biological Engineering & Computing, 2019, 57(2): 441-451, Feb., 2019.
12. Chen ZZ, Yuan WM, Xiang C, Zeng DP, Liu B, Qin KR*. A microfluidic device with spatiotemporal wall shear stress and ATP signals to investigate the intracellular calcium dynamics in vascular endothelial cells. Biomechanics and Modeling in Mechanobiology, 2019, 18(1): 189-202, Feb., 2019 .
13. Wang YX, Liu HB, Li PS, Yuan WX, Liu B, Liu ST, Qin KR(*). ROS and NO dynamics in endothelial cells exposed to exercise-induced wall shear stress. Cellular and Molecular Bioengineering, 2019, 12(1): 107-120, Feb., 2019
14. Li YJ, Cao T*, Qin KR*. Transmission of dynamic biochemical signals in the shallow microfluidic channel: nonlinear modulation of the pulsatile flow, Microfluidics and Nanofluidics, 2018, 22(8):81, Aug 1, 2018
15. Li LF, Xiang C, QIN KR*. Modeling of TRPV4-C1-mediated calcium signaling in vascular endothelial cells induced by fluid shear stress and ATP, Biomechanics and Modeling in Mechanobiology, 2015, 14(5): 979-993
16. Qin KR, Xiang C*, Cao LL. Dynamic modeling for flow-activated Chloride-selective membrane current in vascular endothelial cells. Biomechanics and Modeling in Mechanobiology, 2011, 10(5): 743-754.