Educational Experience

1、凝聚态理论
 
1) Y. S.Duan and S.L.Zhang(张胜利),Topological Structure of Dislocation in the Gauge Field Theory of Dislocation and Disclination Continuum, Int. J. Engng. Sci. 28, 689 (1990).
2) S. L. Zhang(张胜利),S. M. Zhao,J. Y. Lu,M. G. Xia,Helicity Energy of Straight Single Wall Carbon Nanotube, Phys. Rev. B61, 12693 (2000).
3) S. L. Zhang(张胜利),Optimal Configurations of Multiwalled Carbon Nanotubes, Phys. Rev. B65, 235411 (2002).
4) S. L. Zhang(张胜利), M. G. Xia, S. M. Zhao, T. Xu, E. H. Zhang, Specific heat of single-walled carbon nanotubes, Phys. Rev. B68, 075415 (2003).
5) M. G. Xia, S. L.  Zhang(张胜利), X. J. Zuo, E. H. Zhang et al, Assignment of the chiralities of double-walled carbon nanotubes using two radial breathing modes Phys. Rev. B70, 205408 (2004).
6) S. L. Zhang(张胜利), R. Liang, E. H. Zhang, L. Zhang, Y. C. Liu, Magnetosubbands of semiconductor quantum wires with Rashba and Dresselhaus spin-orbit coupling, Phys. Rev. B 73, 155316 (2006).
7) E. H. Zhang, S. L. Zhang(张胜利), Q. Wang, Quantum transport in a curved one-dimensional quantum wire with spin-orbit interactions Phys. Rev. B75, 085308 (2007).
8) X. Chen, P. F. Gao, L. Guo, S. L. Zhang(张胜利), Graphidiyne as a promising materials for detecting amino acids, Scientific Reports 5, 16720 (2015)
9) Y. Zhang, Z. F. Wu, P. F. Gao, S. L. Zhang(张胜利), Y. H. Wu, Could borophene be used as a promising anode material for high-performance lithium ion battery,  ACS APPLIED MATERIALS & INTERFACES 8(34), 22175(2016).
10) H. X. Dong, Y. Zhang, D. Q. Fang,  B. H. Gong, E. H. Zhang, S. L. Zhang(张胜利), Metal-semiconductor-metal transistion in zigzag carbon nanoscolls, Nanoscale 8, 2887 (2016).
11) P. F. Gao, Y. Zhang, X.Chen, Z. F.Wu, Q. Zhang, S. L. Zhang(张胜利), OPGs: promising anode materials with high specific capacity and rate capability for Li/Na ion batteries, Nanoscale 10(37),17942-17948 (2018).
12) Y. Zhang, J. Kang, F. Zheng, P. F. Gao, S. L. Zhang(张胜利), L. W. Wang, Borophosphene: A New Anisotropic Dirac Cone Monolayer with a High Fermi Velocity and a Unique Self-Doping Feature, J. Phys Chem Lett 10(21), 6656-6663 (2020).

 

 

 

2、软物质与生物物理学

1) S. L. Zhang, B. Hu and H. Zhang, An Analytical Approach to the Drift of the Tips of Spiral Waves in the Complex Ginzburg-Landau Equation, Phys. Rev. E67, 016214 (2003).
2) S. L. Zhang(张胜利), X. J. Zuo, M. G. Xia,S. M. Zhao, E. H. Zhang, The general equilibrium shape equations of polymer chains, Phys. Rev. E 70, 051902 (2004).
3) S. L. Zhang(张胜利), L. Zhang, E. H. Zhang, Y. C. Liu, S. M. Zhao, Lubricating bacteria model for the growth of bacterial colonies exposed to ultraviolet radiation, Phys. Rev. E72, 051913 (2005).
4) S. M. Zhao, S. L. Zhang(张胜利), Z. W. Yao, L. Zhang, Equilibrium conformation of polymer chains with noncircular cross section, Phys. Rev. E74, 032801(2006).
5) L. Zhang, S. L. Zhang(张胜利), H. M. Tong, D. S. Lei, B. Hu, Spontaneously periodic wave generation in coupled excitable media, Phys. Rev. E79(5), 056213 (2009).
6) S. L. Zhang  (张胜利), X. Zhang , D. S. Lei ,  L. Zhang,  G. Ren, A Monomeric Apolipoprotein A-I HDL Structure Revealed by Molecular Dynamic Simulation, Arterioscler. Thromb. Vasc. Biol. 29, E71 (2009).  
7) L. Zhang, F. Yan, S. L. Zhang (张胜利), D. L. Lei, M Arthur Charles, Giorgio Cavigiolio, Michael Oda, Ronald M Krauss, Karl H Weisgraber, Kerry-Anne Rye, Henry J Pownall, X. Y. Qiu & G. Ren, Structural basis of transfer between lipoproteins by cholesteryl ester transfer protein, Nature Chemical Biology 8, 342 (2012).
8)D. S. Lei, X.Zhang, S. B. Jiang, Z. D. Cai, M. J. Rames, L. Zhang, G. Ren, S. L. Zhang (张胜利),  Structural features of cholesteryl ester transfer protein: A molecular dynamics simulation study, PROTEINS-STRUCTURE FUNCTION AND BIOINFORMATICS 81(3), 415 (2014). 

9) X. H. Zhang, Y. Y. Qu, H. Chen, I. Rouzina, S. L. Zhang(张胜利), P. S. Doyle, J. Yan, Interconversion between Three Overstretched DNA Structures, J. Am. Chem. Soc. 136, 16073 (2014).
10) X. Zhang, D. S. Lei, L. Zhang, M. Rames, S. L. Zhang(张胜利), A Model of Lipid-Free Apolipoprotein A-I Revealed by Iterative Molecular Dynamics Simulation, PLOS ONE 10(3), e0120233 (2015).

11) X. Zhang, L. Zhang, H. M. Tong, B. Peng, M. J. Rames, S. L. Zhang(张胜利), G. Ren, 3D Structural Fluctuation of IgG1 Antibody Revealed by Individual Particle Electron Tomography, SCIENTIFIC REPORTS 5, 09803 (2015).

12) X. H. Zhou, S. M. Zhao, X. B. Zhai, K. Zhang, H. W. Chen, S. L. Zhang(张胜利), Phase diagram of a tubular vesicle adhering between two parallel rigid planes, Phys. Rev. E 93, 042801 (2016).

13) D. S. Lei, M. Rames, X. Zhang, L. Zhang, S. L. Zhang(张胜利), G. Ren, Insights into the tunnel mechanism of cholesteryl ester transfer protein through all-atom molecular dynamics simulations, J. Bio. Chem. 291, 14034 (2016).

14) S. D. Xu, T. Wang, Z. W. Yang, Y. Li, W. J. Li, T. Wang, S. Wang, L. T. Jia, S. L. Zhang(张胜利), S. Q.Li, miR-26a desensitzes non-small cell lung cancer cells to tyrosine kinase inhibitor by targeting PTPN 13, Oncotarget 7, 45687 (2016).

 

 


 
LiferayFCKeditor/UserFiles/File/1(4).doc