1、基本情况
姓名: 乔沁
出生: 1987年4月
地址: 东安路130号,西13号楼,上海 200032,数字医学研究中心,复旦大学
邮件: qinqiao@fudan.edu.cn
2、主要工作经历
2018/01-至今, 复旦大学,数字医学研究中心,青年副研究员
2016/11-2017/12,交通大学,基础医学院,助理研究员
2016/06-2016/10,中国科学技术大学,微尺度国家实验室,访问学者
2015/01-2016/06,香港科技大学,化学系,博士后
3、学习经历
2010/09-2015/01,香港科技大学,生物工程,博士
2005/09-2010/07,复旦大学,生物科学/物理学,本科
4、主持科研项目(课题)
2017年上海市浦江人才计划A类
6、所获人才项目
2017年上海市青年东方学者
7、代表论文
1.Xuewei Dong, Qin Qiao*, Zhenyu Qian, Guanghong Wei, “Recent computationalstudies of membrane interaction and disruption of human islet amyloidpolypeptide: Monomers, oligomers and protofibrils”, Biochim. Biophys. Acta. -Biomembranes (2018) https://doi.org/10.1016/j.bbamem.2018.03.006 (IF: 3.498)
2.Hou-Dao Zhang, Qin Qiao, Rui-Xue Xu , XiaoZheng , YiJing Yan, “Efficient steady-state solver for hierarchical quantummaster equations”, J. Chem. Phys., 147, 044105 (2017) (IF:2.965)
3.Qin Qiao*, Ruxi Qi, Guanghong Wei, XuhuiHuang, “Dynamics of the Conformational Transitions during the Dimerization ofan Intrinsically Disordered Peptide: a Case Study of Human Islet AmyloidPolypeptide Fragment” Phys. Chem. Chem. Phys., 18, 29892, (2016) (IF:4.123)
4.Qin Qiao*, Hou-Dao Zhang, Xuhui Huang, “Enhancing Pairwise State-transition Weights:A New Weighting Scheme in Simulated Tempering that can Minimize Transition Timebetween a Pair of Conformational States ” J. Chem. Phys., 144,154107, (2016) (IF:2.965)
5.Xiangze Zeng,BinLi, Qin Qiao, Lizhe Zhu,Zhongyuan Lu, and Xuhui Huang “Dominant Pathways of the Nano-particleSelf-Assembly Process Elucidated by Kinetic Network Models” Phys.Chem. Chem. Phys., 18, 23494, (2016) (IF:4.123)
6.Hou-Dao Zhang, Qin Qiao, Rui-Xue Xu, YiJingYan, “Effects of Herzberg—Teller vibronic coupling on coherent excitationenergy transfer”, J. Chem. Phys., 145, 204109 (2016) (IF:2.965)
7.Qin Qiao,Gregory R. Bowman, Xuhui Huang, “Dynamics of anintrinsically disordered protein reveal metastable conformations thatpotentially seed aggregation”, J.Am. Chem. Soc., 135 (43),16092, (2013) ( Highlighted by ACS Select ) (IF:13.858)
*通讯作者
8、研究方向
计算生物物理学,具体包括:
1. 分子动力学模拟采样效率的提高及其热力学与动力学分析;
2. 自禀无序蛋白质及纳米颗粒自聚集的分子机理及其热力学与动力学性质;
3. 凝聚态中的线性与非线性光谱的模拟。
