Job Title:Professor
E-mail:leiuiam.ntu.edu.tw
Tel:02-33665673
Fax:02-23639290
Office:Room 220
Lab:微奈米力學研究室

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  • 美國加州大學柏克萊校區博士(機械工程), 1985
  • 美國明里蘇達大學碩士(航空工程), 1982
  • 國立臺灣大學學士(機械工程), 1979
  • 國立臺灣大學應用力學研究所教授(現職)
  • 國立臺灣大學應用力學研究所副教授
  • 國立臺灣大學應用力學研究所講師
  • 國立臺灣大學機械工程系助教
  • 自1985年加入應用力學研究所
  • 應用數學(I)
  • 高等應用數學(I)
  • 可壓縮流
  • 地球物理流體力學
  • 空氣污染導論
  • 環境流體力學導論
  • 流體力學導論
  • 微奈米力學導論
  • 微尺度流體力學導論
  • 微奈米電動力學
  • 紊流導論
  • 二相懸浮流導論
  • 細胞力學
  • 材料力學(化工系)
  • 黏性流
  • 流體力學
  • 微奈米尺度力學問題
  • 廣義介電泳
  • 國立臺灣大學優良教師 1987, 2008, 2011, 2017, 2018.
  • 國立臺灣大學全英語授課優良教師 2020

Selected publications:

  • Kuan-Yu Chen, Yen-Cheng Chen, Tzu-Hsin Lin, Cheng-Ying Yang, Ya-Wen Kuo and U Lei, “Hemostatic enhancement via chitosan is independent of classical clotting pathways - A quantitative study.” Polymers, 12(10), 2391, 2020.

  • Yung-Yi Lin, Ying-Jie Lo and U Lei, “Measurement of the imaginary part of the Clausius-Mossotti factor of particle/cell via dual frequency electrorotation.” Micromachines, 11(3), 329, 2020.

  • Y. J. Lo and U Lei, “Measurement of the real part of the Clausius–Mossotti factor of dielectrophoresis for Brownian particles,” Electrophoresis, 41, 137-147, 2020 (The paper was highlighted as the cover article).

  • Y. J. Lo and U Lei, “A continuous flow-through microfluidic device for electrical lysis of cells,” Micromachines, 10(4), 247, 2019.

  • K. Y. Chen, T. H. Lin, C. Y. Yang, K. W. Kuo and U. Lei, “Mechanics for the adhesion and aggregation of red blood cells on chitosan,” Journal of Mechanics, 34(5), 725-732, 2018.

  • 李雨, 施博仁, 江宏仁, 趙聖德, 李皇德, 陳瑞琳, 陳冠宇, “奈米科技中的力學,” 第一版, ISBN 978-986-350-281-4. 臺北市: 臺大出版中心,2018.

  • Y.-Y. Lin, U. Lei, Y.-J. Lo, M.-S. Wu and P.-C. Yang, “A modified travelling wave dielectrophoretic method for the measurement of the imaginary part of the Clausius-Mossotti factor using dual frequency operation,” Journal of Mechanics, 30(6), 651-660, 2014.

  • Y. J. Lo, U. Lei, K. Y. Chen, Y. Y. Lin, C. C. Huang, M. S. Wu and P. C. Yang, “Derivation of the cell dielectric properties based on Clausius-Mossotti factor,” Applied Physics Letters,” 104, 113702, 2014.

  • Y. J. Lo, Y. Y. Lin, U. Lei, M. S. Wu, and P. C. Yang, “Measurement of the Clausius-Mossotti factor of generalized dielectrophoresis,” Applied Physics Letters, 104, 083701, 2014.

  • U. Lei, Pei-Hou Sun and Ronald Pethig, “Refinement of the theory for extracting cell dielectric properties from dielectrophoresis and electrorotation experiments,” Biomicrofluidics, 5, 044109, 2011.

  • U. Lei and Y. J. Lo, “Review of the theory of generalised dielectrophoresis,” IET Nanobiotechnology, 5(3), 86-106, 2011 (Invited review paper).

  • Rui-Bin Jiang and U. Lei, “Biosensor regeneration via substrate electric potential: A physical mechanism,” Applied Physics Letters, 96(26), 263701 2010.

  • Y. J. Lo and U. Lei, “Experimental validation of the theory of wall effect on dielectrophoresis,” Applied Physics Letters, 96(9), 093702, 2010.

  • Y. J. Lo and U. Lei, “Quasistatic force and torque on a spherical particle under generalized dielectrophoresis in the vicinity of walls,” Applied Physics Letters, 95(25), 253701, 2009.

  • U. Lei, C. W. Huang, J. Chen, C. Y. Yang, Y. J. Lo, A. Wo, C. F. Chen and T. W. Fung, “A travelling wave dielectrophoretic pump for blood delivery,” Lab on a Chip, 9, 1349–1356, 2009 (The paper was highlighted as the back cover article).

  • C. Y. Yang and U. Lei, “Quasistatic force and torque on ellipsoidal particles under generalized dielectrophoresis,” Journal of Applied Physics, 102(9), 094702, 2007.

  • C. Y. Yang and U. Lei, “Dielectrophoretic force and torque on an ellipsoid in an arbitrary time varying electric fieldApplied Physics Letters, 90 (15), 153901, 2007.

  • U. Lei, C. Y. Yang and K. C. Wu, “Viscous torque on a sphere under arbitrary rotation,” Applied Physics Letters, 89(18), 181903, 2006.

  • C. Y. Yang and U. Lei, “Dielectrophoretic force and torque on a sphere in an arbitrary time varying electric field,” Applied Physics Letters, 89(16), 163902, 2006.

  • C. Y. Yang and U. Lei, “The role of the turbulent scales in the settling velocity of heavy particles in homogeneous isotropic turbulence,” Journal of Fluid Mechanics, 371, 179-205, 1998.

  • U. Lei, M. J. Lin, H. J. Sheen and C. M. Lin, “Velocity measurements of the laminar flow through a rotating straight pipe,” Physics of Fluids 6(6), 1972-1982, 1994.

  • U. Lei and C. F. Ho, “Pulsatile flow in a rotating straight pipe. 1. Analysis of the fluid motion inside a nutation fluid damper,” Physics of Fluids A – Fluid Dynamics 5(10), 2405-2429, 1993.

  • F. G. Yeh and U. Lei, “On the motion of small particles in a homogeneous turbulent shear flow,” Physics of Fluids A – Fluid Dynamics 3(11), 2758-2776, 1991.

  • F. G. Yeh and U. Lei, “On the motion of small particles in a homogeneous isotropic turbulent flow,” Physics of Fluids A – Fluid Dynamics 3(11), 2571-2586, 1991.

  • U. Lei and C. H. Hsu, “Flow through rotating straight pipes,” Physics of Fluids A – Fluid Dynamics 2(1), 63-75, 1990.

Contact Us

TEL : 886-2-3366-5600
FAX : 886-2-2363-9290
Address : 106 No.1, Sec. 4, Roosevelt Rd., Da’an Dist., Taipei City 106, Taiwan (R.O.C.) Institute of Applied Mechanics, National Taiwan University

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