[28] Du-Chang Xu, Xiao-Ying Tang, Ao Li, Jing-Tao Ma, Yuan-Qing Xu*. External force attached binding focus of particles and its application[J]. Physics of Fluids, 2023, in press.

[27] Jin-Yang Li, Si-Ying Jiang, Hai-Lei Zhou, Du-Chang Xu, Yuan-Qing Xu*. The Effects of Particle Shape on Inertial Focusing [J]. Proceedings of the Institution of Mechanical Engineers Part C-Journal of Mechanical Engineering Science. 2023, in press.

[26] 许都昌, 赖开澄, 金义光, 徐远清*. 肺部颗粒运动机制模型的研究进展[J]. 药学学报, 2021, 56(10): 2622-2629.

[25] Ao Li, Yu-Xiao Luo, Yuan Liu ,Yuan-Qing Xu*, Fang-Bao Tian, Yong Wang, Hydrodynamic behaviors of self-propelled sperms in confined spaces.Engineering Applications of Computational Fluid Mechanics，2022，16:1, 141-160.

[24] Xu D-C, Luo Y-X, Xu Y-Q*. Study on Deposition Characteristics of Microparticles in Terminal Pulmonary Acini by IB–LBM. Micromachines. 2021; 12(8):957. https://doi.org/10.3390/mi12080957.

[23]Ao Li, Gao-Ming Xu, Jingtao Ma, Yuan-Qing Xu* . Study on the binding focusing state of particles in inertial migration[J]. Applied Mathematical Modelling, 2021, 97:1-18.

[22]李想，刘源，陈端端，徐远清*.CFD技术在斑块易损性研究中的应用[J]. 生命科学仪器，2020，18(6):3-15. (封面文章)

[21] Qiong-Yao Liu, Xiao-Ying Tang, Duan-Duan Chen, Yuan-Qing Xu*， Fang-Bao Tian. Hydrodynamic study of sperm swimming near a wall based on the immersed boundary-lattice Boltzmann method, Engineering Applications of Computational Fluid Mechanics. 2020，14:1,853-870.

[20] Jing-tao Ma , Wen-hong Zu, Xiao-ying Tang , Yuan-qing Xu*. An IB-LBM design of a microfluidics-based cell capture system. Proc IMeche Part C: Journal of Mechanical Engineering Science, 2021,235(2): 381-390.

[19] P.F. Zhu, X Li, A Li, Y Liu, D.D. Chen, and Y.Q. Xu*, Simulation Study on the Mass Transport Based on the Ciliated Dynamic System of the Respiratory Tract. Computational and Mathematical Methods in Medicine, 2019, ID: 6036248.

[18] Y. Q. Xu，M.Y Wang，Q. Y. Liu, X. Y. Tang，F.B. Tian*，External Force-Induced Focus of a Flexible Plate in a Viscous Fluid. Applied Mathematical Modelling 53 (2018) 369–383.

[17] Y.Q. Xu, Y.Q Jiang, J Wu, Y Sui and F.B. Tian*. Benchmark numerical solutions for two-dimensional FSI involving large displacements with the DSD/SST and IB–LB methods.Proc IMeche Part C: Journal of Mechanical Engineering Science, 232, 14: 2500-2514.

[16] J. T. Ma, Y. Q. Xu* & X. Y. Tang. A Numerical Simulation of Cell Separation by Simplified Asymmetric Pinched Flow Fractionation. Computational and Mathematical Methods in Medicine. 2016, ID: 25645844.

[15] Wei, Q., Xu, Y. Q.*, Tang, X. Y. & Tian, F. B*. (2016) An IB-LBM study of continuous cell sorting in deterministic lateral displacement arrays, Acta Mechanica Sinica , 2016, 32(6):1023-1030.

[14] J. Ma, Y. Xu*, F. Tian and X. Tang. IB-LBM study on cell sorting by pinched flow fractionation. Bio-medical materials and engineering. 2014, 24(6):2547-2554.

[13] Xu, Y, Tian, F*, Tang X, Peng Y. J. A Mathematical Model for Micro- and Nano- Swimmers.Mech. Med.Biol.: 2013 ,6 ,1340013.

[12] Tian F, Xu Y*, Tang X, Deng Y. Study on a Self-Propelled Fish Swimming in Viscous Fluid by a Finite Element Method . Mech. Med.Biol.: 2013 ,6 ,1340012.

[11] Gao S, Peng Y, Guo H, Liu W, Gao T, Xu Y*, Tang X*..Texture analysis and classification of ultrasound liver images.Bio-Medical Materials and Engineering: 2014 ,1(24) ,1209-1216.

[10] Wei Q, Xu Y*, Tian F, Gao T, Tang X and Zu W. IB-LBM simulation on blood cell sorting with a micro-fence structure. Bio-Medical Materials and Engineering: 2014 ,1(24) ,475-481.

[9] Xu Y., Tian F*, Deng.Y. An Efficient Red Blood Cell Model in the Frame of IB-LBM and Its Application. Int. J. Biomath.: 2013 ,6(1) ,1250061.

[8] Xu Y, Tang X, Tian F, Peng Y*, Xu Yong*, Zeng Y.. IB-LBM Simulation of the Hemocyte Dynamics in a Stenotic Capillary .Comput. Method Biomec.: 2014 ,17(9) ,978-985.

[7] Zu W., Zhang J., Chen D., Xu Y*, Wei Q. Tian F.. Immersed Boundary-Lattice Boltzmann Method for Biological And Biomedical Flows.Communications in Computer and Information Science: 2014 ,405 ,383-392

[6] Cheng S, Xu Y*, Tang X, Wang R. Lattice Boltzmann Study of Micro Branch Array of Crossflow Filtration for Fluid Partitioning. Proceedings of 2013 ICME: 2013 ,pp ,586-589.

[5] Xu Y，Deng Y*, Geng L, He J..Intelligent Parameters Identification on Numerical Model of EOF-based Gated Injection in Microfluidic Channels. Proceeding of the 8th IEEE/ACIS International Conference on Computer and Information Science. (ICIS2009),: 2010 ,4 ,477- 481.

[4] Xu Y., Tian F.*, Li H., Deng Y. Red Blood Cell Partitioning and Blood Flux Redistribution in Microvascular Bifurcation. Theor. Appl. Mech. Lett.: 2012 ,2 (2) ,024001.

[3] Deng, H., Xu, Y., Chen, D., Dai, H., Wu, J., Tian, F.. On numerical modeling of animal swimming and flight. Computational Mech.: 2013 ,6(52) ,1221-1242.

[2] Tian F. Bharti R., Xu Y. Deforming-Spatial-Domain/Stabilized Space–Time (DSD/SST) method in computation of non-Newtonian fluid flow and heat transfer with moving boundaries. , Computational Mech.: 2013 ,53 (2) ,257-271.

[1] Meng C, Li H， Tang X ，Xu Y*. Simulation study on a DC-drive Electroosmotic Micromixer. International Conference on Computer Engineering, 2017, DOI: 10.2991/iccia- 17.2017.171.

出版教材

（1）徐远清、王安聪、唐晓英. 《自动控制理论》，bob手机在线登陆出版社，2023 (出版中，ISBN：978-7-5763-1305-5)

出版专著

（1）徐远清、耿利娜，《微流控建模技术与建模分析》，bob手机在线登陆出版社，2021 .3.

（2）邓宏彬,王超，赵娜，徐远清.《中小型智能弹药舵机系统设计与应用技术》，国防工业出版社，2016.4.

专利申请

（1）徐远清，李想，陈端端，唐晓英. 颈动脉弹性斑块流固耦合特性IB-LBM数值模拟方法 [发明]，2020，公开号：CN111767683A.

（2）李京,唐晓英,徐远清,许一楠. 基于微带线的平衡驱动式磁共振射频线圈 [发明]. 专利号：CN106468767A，2018.

（3）陈端端, 闫天翼, 高天欣, 徐远清, 刘伟峰, 唐晓英. 支架模拟方法 [发明]. 专利号：CN105243686A,2017.

承担课程

1、本科生课程

课程名称	课程性质	学时数	开设时间
仿真软件实验	实验课	16学时	2012-2022
自动控制原理	专业选修课	32学时	2012-2022
生物医学工程前沿	通识课	3学时	2017-2022

2、研究生课程

课程名称	课程性质	学时数	开设时间
微流控技术与建模	选修课	24学时(32)	2019-2022
工程伦理	基础课	16学时	2019-2022
生物医学工程进展	通识课	3学时	2017-2022