一、基本资料
二、教学情况
开设2门本科生选修课:智能与仿生材料、胶体与界面化学
三、 研究领域:
1:生物物理理论
近年来,软凝聚态物理和生命科学的交叉科学领域成为国际理论研究的一大热点。分子动力学、耗散粒子动力学、布朗运动学等分子模拟理论是有效深入研究模型化的复杂生命体系的主要手段。生物膜结构、细胞骨架的复杂组织结构、信号传导、细胞运动和细胞分裂等模型化体系是最近生物物理研究的热点之一。主要研究方向:生物膜的膜上多组分脂质体和膜内生物高分子的相分离机理、生物膜和蛋白之间的相互作用、分子马达的运动机制、细胞骨架在细胞运动和细胞分裂中的作用机理。
2:高分子凝聚态物理
自洽场理论研究多组分复杂高分子体系的相结构行为;水溶性高分子和纳米粒子体系的结构、力学行为。
四、科研情况(包含近期主持、主研主要教学科研项目名称及经费) :(负责人)
(1)“国家自然科学基金:细胞骨架的增长以及其在细胞运动中的作用机理
(2) 北京分子科学国家实验室:温和条件下高分子和无机粒子自组装原理研究
(3)教育部归国留学启动基金:高分子和Janus粒子相互作用研究
五、获奖情况:
获得的科技成果(包括国家发明专利)奖励情况:
六、发表论文与著作情况
公开出版的著作、教材或论文:
部分论文(第一作者):
1. 郭坤琨*,韩文驰 布朗动力学理论模拟动态肌动蛋白纤维的增长 化学学报(排版)
2. Kunkun Guo*, Julian Shillcock, Reinhard Lipowsky, Treadmilling of actin filaments via Brownian dynamics simulations, J. Chem. Phys. 133, 155105 (2010), which has been also selected for the October 2010 issue of JCP: BioChemical Physics.
3. Wang JF, Guo KK, An LJ, Mueller M, Wang ZG, Micelles of Coil-Comb Block Copolymers in Selective Solvents: Competition of Length Scales, Macromolecules, 43:2037-2041 (2010)
4. Guo KK*, Shillcock JC, Lipowsky R, Self-assembly of actin monomers into long filaments: Brownian Dynamics Simulations, Journal of Chemical Physics, 131,015102-015112(2009), which has been selected for the July 13, 2009 issue of Virtual Journal of Nanoscale Science & Technology. IF: 3.04
5. Guo KK, Wang JF, Qiu F, Zhang HD, Yang YL, Shapes of fluid vesicles anchored by polymer chains, soft matter, 5:1646-1655 (2009). IF: 4.703
6. Guo KK, Qiu F, Zhang HD, Yang YL, Rigid rod anchored to infinite membrane, Journal of Chemical Physics 123: 074906 (2005). IF: 3.04
7. Guo KK, Qiu F, Zhang HD, Yang YL, Polymer anchored to the infinite membrane, Acta Physica Sinica 55(01)0155-07 (2006) (Chinese). IF: 1.27
8. Wang JF, Guo KK, Qiu F, Zhang HD, Yang YL, Predicting shapes of polymer chain anchored fluid vesicles, Physical Review E. 71: 041908 (2005). IF: 2.48
9. Pan QM, Guo KK, Wang LZ, Fang SB, Impedance study on graphite encapsulated with ionic conducting polymer for lithium-ion batteries, Electrochemical and Solid State Letters 6 (12): A265-A267 DEC (2003). IF: 2.11
10. Guo KK, Pan QM, Fang SB, Poly (acrylonitrile) encapsulated graphite as anode materials for lithium ion batteries, Journal of Power Sources 111 (2): 350-356 SEP 23 (2002). IF: 3.5
11. Pan QM, Guo KK, Wang LZ, Fang SB, Novel modified graphite as anode material for lithium ion batteries, Journal of Materials Chemistry 12 (6): 1833-1838 (2002). IF: 4.34
12. Pan QM, Guo KK, Wang LZ, Fang SB, Novel modified graphite as anode material for lithium-ion batteries, Journal of the Electrochemical Society 149 (9): A1218-A1223 SEP (2002). IF: 2.48
13. Pan QM, Guo KK, Wang LZ, Fang SB, Ionic conductive copolymer encapsulated graphite as an anode material for lithium ion batteries, Solid State Ionics 149 (3-4): 193-200 AUG (2002). IF: 2.19
14. Guo K, Pan Q, Wang L, Fang S, Nano-scale copper-coated graphite as anode material for lithium-ion batteries, U Journal of Applied Electrochemistry 32 (6): 679-685 JUN (2002). IF: 1.42
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