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个人简介

教育经历 2012.92017.6中国科学院大学流体力学博士 2008.92012.6山东大学工程力学学士 2005.62008.6江苏省东台中学 工作经历 2017.7至今大连理工大学生物医学工程系讲师

研究领域

微纳尺度流动与界面流动 生物微流控技术与器件 生物力学建模与仿真 智能医学信息检测及装备

近期论文

查看导师新发文章 (温馨提示:请注意重名现象,建议点开原文通过作者单位确认)

[1]Na, Jing-Tong.Precise generation of dynamic biochemical signals by controlling the programmable pump in a Y-s...[J],ELECTROPHORESIS,2022,41(10-11,SI):883-890 [2]李泳江.Raman spectroscopic characterization of polymerization kinetics of cyanoacrylate embolic glues fo...[J],Polymers,2022,13(19) [3]薛春东.Separation of micro and sub-micro diamagnetic particles in dual ferrofluid streams based on neg...[J],ELECTROPHORESIS,2022,41(10-11,SI):909-916 [4]薛春东.Non-Newtonian droplet generation in a flow-focusing microchannel[A],ASME 2019 6th International Conference on Micro/Nanoscale Heat and Mass Transfer, MNHMT 2019,2022 [5]李泳江.Modeling of Endothelial Calcium Responses within a Microfluidic Generator of Spatio-Temporal ATP ...[J],MICROMACHINES,2022,12(2) [6]Yuan, Wei-Mo.Measuring the apparent viscosities of single cells by tracking the entire deformation dynamics ...[J],Analytical Methods,2022,11(44):5680-5690 [7]薛春东.Microfluidic focusing of microparticles utilizing negative magnetophoresis and oscillatory flow[J],MICROFLUIDICS AND NANOFLUIDICS,2022,25(12) [8]薛春东.Breakup Dynamics of Semi-dilute Polymer Solutions in a Microfluidic Flow-focusing Device[J],Micromachines,2022,11(4) [9]孙仲平.基于铁磁流体的微纳颗粒分离与富集[A],2019年全国工业流体力学会议,2022,1 [10]陈晓明.A Capillary-Evaporation Micropump for Real-Time Sweat Rate Monitoring with an Electrochemical S...[J],Micromachines,2022,10(7) [11]Yuan, Wei-Mo.A high-throughput microfluidic device for probing calcium dynamics of single cells squeezing th...[J],JOURNAL OF MICROMECHANICS AND MICROENGINEERING,2022,29(11) [12]Yu, Hong-Jian.A Microfluidic Chip for Rapidly Controlling Dynamic Biochemical Signals[A],14th IEEE International Conference on Control and Automation, ICCA 2018,2022,2018-June:1137-1141 [13]于洪建.A Microfluidic Chip for Rapidly Controlling Dynamic Biomedical Signals[A],IEEE 14th International Conference on Control and Automation (ICCA),2022,2018-June:1137-1141 [14]李泳江.A microfluidic generator of dynamic shear stress and biochemical signals based on autonomously os...[J],ELECTROPHORESIS,2022,42(21-22):2264-2272 [15]李泳江.A Microfluidic Micropipette Aspiration Device to Study Single-Cell Mechanics Inspired by the Pr...[J],Micromachines,2022,10(2) [16]薛春东.A microfluidic platform enabling real-time control of dynamic biochemical stimuli to biological...[J],JOURNAL OF MICROMECHANICS AND MICROENGINEERING,2022,30(9) [17]Na, Jing-Tong.A microfluidic system for precisely reproducing physiological blood pressure and wall shear stres...[J],ANALYST,2022,146(19):5913-5922 [18]郑平.Anomalous Confined Diffusion of Nanoparticles in Polymer Solutions[A],2020 IEEE 16th International Conference on Control & Automation (ICCA),2022 [19]袁闱墨.单细胞挤过狭窄微流通道变形过程的钙响应实验与建模[A],2020年第十一届全国流体力学学术会议,2020 [20]李泳江.基于惠斯通电桥的单细胞微管吸吮微流控芯片[A],第十届全国流体力学学术会议,2022 [21]Chen, Jianfeng.Effect of colourants on the optical characteristics and structure of Y2O3 stabilised tetragonal z...[J],COLORATION TECHNOLOGY,2022,137(5):493-502 [22]Yuan, Wei-Mo.The intracellular calcium dynamics in a single vascular endothelial cell being squeezed through...[J],Biomechanics and Modeling in Mechanobiology,2022,20(1):55-67 [23]Sun, Z.-P..Separation of sub-micrometer particles based on ferrofluid [基于铁磁流体的亚微米颗粒分离][J],Shuidonglixue Yanjiu yu Jinzhan/Chinese Journal of Hydrodynamics Ser. A,2019,34(6):756-764 [24]袁闱墨.一种高通量测量单细胞弹性模量的微流控芯片[J],北京生物医学工程,2019,38(5):450-456 [25]于洪建.一种快速控制动态生化信号的微流控芯片[A],第十二届全国生物力学学术会议暨第十四届全国生物流变学学术会议,2018,Vol.33:1 [26]李泳江.Modeling of endothelial calcium responses within a microfluidic generator of spatio-temporal ATP ...[J],Micromachines,2021,12:1-12 [27]李泳江.A microfluidic generator of dynamic shear stress and biochemical signals based on autonomously os...[J],Electrophoresis,2021,42(7):2264-2272 [28]薛春东.Diffusion of Nanoparticles with Activated Hopping in Crowded Polymer Solutions[J],NANO LETTERS,2020,20(5):3895-3904 [29]薛春东.复杂流体中纳米颗粒的扩散机制研究[A],2021 [30]Zheng, Ping.Anomalous Confined Diffusion of Nanoparticles in Polymer Solutions[A],2021,1523-1528 [31]袁闱墨.单细胞挤过狭窄微流通道变形过程的钙响应实验与建模[A],2021 [32]The intracellular calcium dynamics in a single vascular endothelial cell being squeezed through...[J],BIOMECHANICS AND MODELING IN MECHANOBIOLOGY,2021,20(1):55-67 [33]郑平.Anomalous Confined Diffusion of Nanoparticles in Polymer Solutions[A],2020 [34]孙仲平,薛春东,刘波.基于铁磁流体的亚微米颗粒分离[J],水动力学研究与进展 A辑,2019 [35]Yuan Wei-Mo,Xue Chun-Dong,Qin Kai-Rong.The intracellular calcium dynamics in a single vascular endothelial cell being squeezed through a...[J],Biomechanics and Modeling in Mechanobiology,2020 [36]Xue, Chun-Dong,Li, Yong-Jiang,Na, Jing-Tong,Wang, Yan-Xia,Yu, Hong-Jian,Liu, Bo,Cao, Tun,Qin, Kai-Rong.A microfluidic platform enabling real-time control of dynamic biochemical stimuli to biological...[J],JOURNAL OF MICROMECHANICS AND MICROENGINEERING,2020,30(9) [37]Xue Chun-Dong,Li Yong-Jiang,Hu Guo-Qing,Cao Tun,Qin Kai-Rong,Chen Xiao-Dong.Breakup Dynamics of Semi-dilute Polymer Solutions in a Microfluidic Flow-focusing Device[J],Micromachines,2020,11(4) [38]Na, Jing-Tong,Xue, Chun-Dong,Li, Yong-Jiang,Wang, Yu,Liu, Bo,Qin, Kai-Rong.Precise generation of dynamic biochemical signals by controlling the programmable pump in a Y-s...[J],ELECTROPHORESIS,2020,41(10-11,SI):883-890 [39]Xue, Chun-Dong,Sun, Zhong-Ping,Li, Yong-Jiang,Chen, Jian-Feng,Liu, Bo,Qin, Kai-Rong.Separation of micro and sub-micro diamagnetic particles in dual ferrofluid streams based on neg...[J],ELECTROPHORESIS,2020,41(10-11,SI):909-916 [40]Xue, Chundong,Tian, Yu,Zheng, Xu,Hu, Guoqing,Shi, Xinghua.Diffusion of Nanoparticles with Activated Hopping in Crowded Polymer Solutions[J],NANO LETTERS,2020,20(5):3895-3904 [41]袁闱墨,薛春东,刘波,覃开蓉.一种高通量测量单细胞弹性模量的微流控芯片[J],北京生物医学工程,2019,38(5):450-456 [42]Yu, Hong-Jian,Xue, Chun-Dong,Cao, Tun,Qin, Kai-Rong,薛春东.A Microfluidic Chip for Rapidly Controlling Dynamic Biochemical Signals[A],2018,2018-June:1137-1141 [43]Yuan, Wei-Mo,Xiang, Cheng,Xue, Chun-Dong,Liu, Bo,Qin, Kai-Rong.Measuring the apparent viscosities of single cells by tracking the entire deformation dynamics ...[J],ANALYTICAL METHODS,2019,11(44):5680-5690 [44]Chen, Xiao-Ming,Zhu, Hui-Chao,Xue, Chun-Dong,Chui, Hsiang-Chen,Cao, Tun,Qin, Kai-Rong,Li, Yong-Jiang,Han, Dan.A Capillary-Evaporation Micropump for Real-Time Sweat Rate Monitoring with an Electrochemical S...[J],MICROMACHINES,2019,10(7) [45]Yuan, Wei-Mo,Shao, Jin-Yu,Xue, Chun-Dong,Liu, Bo,Qin, Kai-Rong.A high-throughput microfluidic device for probing calcium dynamics of single cells squeezing th...[J],JOURNAL OF MICROMECHANICS AND MICROENGINEERING,2019,29(11) [46]李泳江,曾德培,薛春东,覃开蓉.基于惠斯通电桥的单细胞微管吸吮微流控芯片[A],2018 [47]Li, Yong-Jiang,Yang, Yu-Nong,Zhang, Hai-Jun,Xue, Chun-Dong,Zeng, De-Pei,Cao, Tun,Qin, Kai-Rong.A Microfluidic Micropipette Aspiration Device to Study Single-Cell Mechanics Inspired by the Pr...[J],MICROMACHINES,2019,10(2)

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