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LI Yinmei, Professor Bio-X Interdisciplinary Sciences
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: 86-551-63606420
Fax: 86-551-63606420
E-mail: liyinmei@ustc.edu.cn
http://laserbio.ustc.edu.cn/lab/lab.html
 
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) In vivo optical trapping of cells within living animal at depth of submillimeter with Bessel light beam, supported by National Natural Science Foundation of China (2014-2017).
2) Trapping red blood cells in living animals using optical tweezers, supported by grants from the National Basic Research Program of China (2011-2015).
3) Investigation on rheological properties of amphiphilic block copolymers by optical tweezers,supported by National Natural Science Foundation of China(2011-2013).
4) Study of biological effect of nano-medicament, supported by 863-Program on nano-biotechnology (2008-2010).
5) Studying of red blood cell deformation and motion in capillary flows, supported by National Natural Science Foundation of China (2014-2016).
6) Single molecule biophysical study of centromere-associated protein E, supported by National Natural Science Foundation of China (2012).
7) Dependence study of surface hydrogen bonding structure with mechanical properties of polymer vesicle membrane,supported by National Natural Science Foundation of China (2010-2012).
 
REPRESENTATIVE PUBLICATIONS
1) M.-C. Zhong, L. Gong, D. Li, J.-H. Zhou, and Y.-M. Li. “Optical trapping of core-shell magnetic microparticles by cylindrical vector beams,” Applied Physics Letters 105 (2014).
2) L. Gong, X.-Z. Qiu, Y.-X. Ren, H.-Q. Zhu, W.-W. Liu, J.-H. Zhou, M.-C. Zhong, X.-X. Chu, and Y.-M. Li. " Observation of the asymmetric Bessel beams with arbitrary orientation using a digital micromirror device." Optics Express 22(22): 26763-26776 (2014).
3) L. Gong, Y.-X. Ren, W.-W. Liu, M.-C. Zhong, Z.-Q. Wang, and Y.-M. Li. “Generation of cylindrically polarized vector vortex beams with digital micromirror device.” Journal of Applied Physics 116(18): 183105 (2014).
4) P. Xia, J.-H. Zhou, X.-Y. Song, B. Wu, X. Liu, D. Li, S.-Y. Zhang, Z.-K. Wang, H.-J. Yu, and T. Ward, J.-C. Zhang, Y.-H. Li, X.-N. Wang, Y. Chen, Z. Guo, and X.-B. Yao. “Aurora A orchestrates entosis by regulating a dynamic MCAK–TIP1 50 interaction.” Journal of Molecular Cell Biology, 6(3): 240-254 (2014).
5) Z.-Q. Wang, J.-H. Zhou, M.-C. Zhong, D. Li, and Y.-M. Li, “Calibration of optical tweezers based on an autoregressive model.” Optics Express 22(14): 16956-16964 (2014).
6) M.-C. Zhong, X.-B. Wei, J.-H. Zhou, Z.-Q. Wang, and Y.-M. Li, "Trapping red blood cells in living animals using optical tweezers," Nat Commun 4, 1768 (2013).
7) M.-C. Zhong, L. Gong, J.-H. Zhou, Z.-Q. Wang, and Y.-M. Li, "Optical trapping of red blood cells in living animals with a water immersion objective," Optics Letters 38, 5134-5137 (2013).
8) G. Xue, K. Chen, G. Shen, Z. Wang, Q. Zhang, J. Cai, and Y. Li, "Phase-separation and photoresponse in binary azobenzene-containing polymer vesicles," Colloids and Surfaces A: Physicochemical and Engineering Aspects 436, 1007-1012 (2013).
9) L. Gong, Y.-X. Ren, G.-S. Xue, Q.-C. Wang, J.-H. Zhou, M.-C. Zhong, Z.-Q. Wang, and Y.-M. Li, "Generation of nondiffracting Bessel beam using digital micromirror device," Appl. Optics 52, 4566-4575 (2013).
10)

J. H. Zhou, M. C. Zhong, Z. Q. Wang, and Y. M. Li, "Calculation of optical forces on an ellipsoid using vectorial ray tracing method," Optics Express 20, 14928–14937 (2012).

11) Y. X. Ren, M. Li, K. Huang, J. G. Wu, H. F. Gao, Z. Q. Wang, and Y. M. Li, "Experimental generation of Laguerre-Gaussian beam using digital micromirror device," Appl. Optics 49, 1838-1844 (2010).
12)  J. H. Zhou, R. Z. Tao, Z. B. Hu, M. C. Zhong, Z. Q. Wang, J. Cai, and Y. M. Li, "Manipulation of Nanoparticles Using Dark-Field-Illumination Optical Tweezers with Compensating Spherical Aberration," Chinese Physics Letters 26, 068701 (2009).
13)  M. C. Zhong, J. H. Zhou, Y. X. Ren, Y. M. Li, and Z. Q. Wang, "Rotation of birefringent particles in optical tweezers with spherical aberration," Appl. Optics 48, 4397-4402 (2009).
14) J. G. Wu, Y. M. Li, D. Lu, Z. Liu, Z. D. Cheng, and L. Q. He, "Measurement of the Membrane Elasticity of Red Blood Cell with Osmotic Pressure by Optical Tweezers," Cryoletters 30, 89-95 (2009).
15) J. H. Zhou, L. J. Qu, K. Yao, M. C. Zhong, and Y. M. Li, "Observing nanometre scale particles with light scattering for manipulation using optical tweezers," Chinese Physics Letters 25, 329-331 (2008).



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