Yinmei Li

MEMBERS

Faculty

Yinmei Li

2022-05-26

Name:

Li Yin-Mei（李银妹）

Address:

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

Home:

http://laserbio.ustc.edu.cn

EDUCATION AND RESEARCH EXPERIENCE

1972-1975	Bachelor, Department of Physics, USTC.
1979-1990	Optical Engineer, Department of Physics, USTC.
1990-1996	Lecturer, Department of Physics, USTC.
1996-2002	Associate Professor, Department of Physics, USTC.
2002-2009	Professor, Department of Physics, USTC.
2009- Now	Professor, Dept. of Optics and Optical Engineering, USTC.

RESEARCH INTERESTS

1)	Optical tweezers technology
2)	Application of optical tweezers for single cell and single molecule.
3)	Study of the micro-mechanism for interaction of micro-nano particles.

CURRENT RESEARCH PROJECTS

1.‘Measure Subunits Stability of rpoS RNA Untranslated region’

National Natural Science Foundation of China (Grant NO. 31870759)

¥650K RMB, 2019.01-2022.12

2.‘Optical trapping and imaging of single label-free cells in living animals with dynamic wavefront shaping technology’

National Natural Science Foundation of China (Grant NO. 61535011)

¥3 million RMB, 2016.01-2020.12

3.‘In vivo optical trapping of cells within living animal at depth of submillimeter with Bessel light beam’

National Natural Science Foundation of China (Grant NO. 61535011)

¥890K RMB，2014.01-2017.12

4.‘Investigation on rheological properties of amphiphilic block copolymers by optical tweezers’

National Natural Science Foundation of China (Grant NO. 21073174)

¥370K RMB, 2011.01-2013.12

5.‘Studies on the specific Recognition of human natural killer cell using nano optical tweezers system’

National Natural Science Foundation of China (Grant NO. 10474094)

¥350K RMB, 2005.01-2007.12

6.‘Study of biological effect of nano-medicament’

supported by 863-Program on nano-biotechnology (2008-2010)

REPRESENTATIVE PUBLICATIONS

1.Zhong M. C.*, Wei X. B.*, Zhou J. H., Wang Z. Q., Li Y. M†. Trapping red blood cells in living animals using optical tweezers, Nature Communications (2013)

2.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).

3.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).

4.G. Shen, G. Xue, J. Cai, G. Zou, Y. Li, and Q. Zhang, Photo-induced reversible uniform to Janus shape change of vesicles composed of PNIPAM-b-PAzPy2, Soft Matter 9, 2512-2517 (2013)

5.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. Opt. 52, 4566-4575 (2013).

6.Zhou J.H., Zhong M.C., Wang Z.Q., Li Y.M†. Calculation of optical forces on an ellipsoid using vectorial ray tracing method, Optics Express, 20(14), 2012:14928–14937

7.Zhong M.C., Xue G.S., Zhou J.H., Wang Z.Q., Li Y.M. †, Measurement of interaction force between RGD-peptide and Hela cell surface by optical tweezers, Chin. Opt. Lett., 10(10), 2012:101701

8.Ren Y.X., Li Y.M., Huang K., Wu J.G., Gao H.F., Wang Z.-Q., Li Y.M. † Experimental generation of Laguerre-Gaussian beam using digital micromirror device, Appl Optics, 49(10),2010:1838-1844

9.Zhou J.H., Tao R.Z., Hu Z.B., Zhong M.C., Wang Z.Q., Cai J., Li Y.M. † Manipulation of Nanoparticles Using Dark-Field-Illumination Optical Tweezers with Compensating Spherical Aberration. Chinese Physics Letters, 26(6),2009:068701

10.Zhong M.C., Zhou J.H., Ren Y.X., Li Y.M. †, Wang Z.Q. Rotation of birefringent particles in optical tweezers with spherical aberration. Appl Optics, 48(22),2009:4397-4402

11.Wu J.G., Li Y.M., Lu D., Liu Z., Cheng Z.D., He L.Q. Mesurement of the membrane elasticity of red blood cell with osmotic pressure by optical tweezers. Cryo Letters, 30(2),2009:89-95

12.Zhou J.H., Ren H.L., Cai J., Li Y.M. † Ray-tracing methodology: application of spatial analytic geometry in the ray-optic model of optical tweezers. Appl Optics, 47(33),2008:6307-6314

13.L. Gong*†, Q. Zhao*, H. Zhang, X. Hu, K. Huang†, J. Yang, and Y.M. Li†. Optical Orbital-Angular-Momentum-Multiplexed Data Transmission under High scattering. Light: Science and Applications 8, 27 (2019).

14.Lei Gong, Wei-Wei Liu, Qian Zhao, Yu-Xuan Ren, Xing-Ze Qiu, Min-Cheng Zhong, and Yin-Mei Li†. Controllable light capsules employing modified Bessel-Gauss beams. Scientific Reports 6, 29001 (2016).

15.Lei Gong, Wei-Wei Liu, Yu-Xuan Ren, Yao Lu, and Yin-Mei Li†. Self-bending symmetric cusp beam. Applied Physics Letters 107(23): 231110 (2015).

16.Lei Gong, Xing-Ze Qiu, Yu-Xuan Ren, Hui-Qing Zhu, Wei-Wei Liu, Jin-Hua Zhou, Min-Cheng Zhong, Xiu-Xiang Chu, and Yin-Mei Li†. Observation of the asymmetric Bessel beams with arbitrary orientation using a digital micromirror device. Optics Express 22(22): 26763-26776 (2014).

17.Lei Gong, Yu-Xuan Ren, Wei-Wei Liu, Min-Cheng Zhong, Zi-Qiang Wang, and Yin-Mei Li†. “Generation of cylindrically polarized vector vortex beams with digital micromirror device.” Journal of Applied Physics 116(18): 183105 (2014).

18.Mincheng Zhong, Lei Gong, Di Li, Jin-Hua Zhou, and Yin Mei Li†. “Optical trapping of core-shell magnetic microparticles by cylindrical vector beams.” Applied Physics Letters 105 (2014).