Name: Li Yin-Mei（李银妹）
Born: March, 1953, Shanghai P. R. China
Address:
Department of Physics, University of Science and Technology of China, 230026 Hefei, P.
R. China
Tel:86-551-3606420
Fax: 86-551-3606420
e-mail: liyinmei@ustc.edu.cn
EDUCATION AND RESEARCH EXPERIENCE
1972-1975,
Student, Department of Physics, University of Science & Technology of
China
1996-1999
Associate Professor of Physics Department, University of Science &
Technology of China
1999-Now Professor of Physics Department, University of Science & Technology of
China.
RESEARCH INTERESTS:
1) Optical tweezers technology
2) Optical tweezers manipulation technology for single cell and single molecule and its
applications.
3）Study of the micro-mechanism for interaction of micro-nano particles.
CURRENT RESEARCH PROJECTS
1) Study of ppetency of NK cell and target cell by optical tweezers, supported by National
Natural Science Foundation of China(2005-2007)
2) Study of chemical and physical character of microtubule-based motors, supported by
the Key Projects of Knowledge Innovation Program at CAS(2006-2008)
3) Study of biological effect of nano-medicament, supported by 863-Program on
nano-biotechnology (2008-2010)
Papers:
1. 光阱阱位的观察与调节, 中国激光 (1998)
2. Laser-Induced Tobacco Protoplast Fusion, SCIENCE IN CHINA （1999）
3. 像散椭球高斯光束的理论分析与实验模拟, 光学学报 (1999)
4. 细胞激光微操作系统 细胞生物学杂志, （1999）
5. 光阱 PN 量级阱力的流体力学法测量系统, 中国科学技术大学学报 (2000)
6. High precision measurements in an Optical Tweezers for Studying Single
Biomolecule Motion, 生 物 医 学 中 的 光 子 学 与 成 像 技 术 国 际 学 术 讨 论 会 （ 2001 ）
Proceedings of SPIE (2002)
7. 环形光对有效捕获力的提高, 中国激光 28，89（2001）
8. 光镊技术测量抗体/抗原大分子结合力新方法的建立, 生物化学与生物物理学进展
28(6)(2001)
9. 激光光镊中纳米位移 QD 法和 CCD 法测量装置, 第十五届全国激光学术会议论文集
（2001）
10. 实现环形光阱的多种方法及对结果比较, 会议论文集 （2001）
11. A direct test on the possibility of dispersion's aggregate being disrupted by shear
flow, J. Colloid and Interface Science 242,158（2001）
12. Single molecules dection system of optical tweezers, Proceedings of SPIE, 4923，
98 (2002)
13. The comparison of trap stiffness between a solid mode optical trap and a do-nut
mode optical trap, Proceedings of SPIE 4927，333 (2002)
14. S.H.Xu, Y.M.Li, L.R.Lou, H.T.Chen Steady Patterns of Microparticles Formed by
Optical Tweezers Japanese Journal of Applied Physics 41，166 (2002)
15. 纳米光镊技术---新兴的纳米生物技术, 激光与光电子学进展,.40(1),2003
16. 光的力学效应及光阱力的测量, 物理实验,.40(1), 2003
17. A microscopic approach to studying colloidal stability, J.Chem.Phys. 119, (2003).
18. Improved procedure on the microscopic approach to determine colloidal stability,
J.Chem.Phys. 2005
19. Axial optical trapping forces on two particles trapped simultaneously by optical
tweezers APPLIED OPTICS， 44(13) (2005)
20. On the aggregation kinetics of two particles trapped in an optical tweezers Colloids
and Surfaces, A: Physiochem. and Eng. Asp., 255(1-3)(2005)
21. Measurement of the axial displacement with information entropy, Journal of Optics
A: Pure and Applied Optics，7 (2005)
22. Application of Optical Tweezers in the Research of Molecular Interaction between
Lymphocyte Function Associated Antigen-1 and its Monoclonal Antibody, Cellular &
Molecular Immunology 4(3) 2007
23. Observing Nanometer Scale Particles with Light Scattering for Manipulation Using
Optical Tweezers, Chinese Physics Letters, 25 (1), 2008