孙昭艳
单位：中国科学院长春应用化学研究所高分子物理与化学国家重点实验室
地址：吉林省长春市人民大街5625号
邮编：130022
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个人简历 Personal resume


孙昭艳研究员的主要研究方向为高分子多尺度结构和动力学的计算机模拟以及高分子复合材料的结构与性能研究。迄今以第一作者或通讯作者发表学术论文100余篇，在本领域国际国内重要学术会议作邀请报告30余次。曾主持国家自然科学基金委优秀青年科学基金项目1项（**），面上项目4项（**，**，**，**），吉林省****科学研究计划项目1项（**）。现主持国家自然科学基金委重点项目（**）1项，吉林省科技发展计划项目中青年科技创新领军人才及团队项目（JH）1项。此外，作为主要参与人和项目骨干参与国家基金委重大项目（**）、中科院前沿科学项目(QYZDY-SSW-SLH027)和工信部重点研发计划项目（2018YFB**）各1项。2005年获中国化学会青年化学奖1项，2018年以第一完成者获得吉林省自然科学一等奖1项。


研究方向 Research direction


1、高分子结构与动力学的多尺度模拟
2、高分子复合材料的结构与性能
3、高分子材料大数据与机器学习



招生信息 Enrollment information


需要高分子物理和化学的基础知识，正常参加中科大的相关招生考试。课题组有一间50平的学生办公室（独用），还有三间与其他课题组合用的学生办公室，另有实验室3间，职工办公室2间，大型计算机房一套（配备UPS电源、机房空调等，与其他课题组合用）。组内有各类小型实验仪器设备，GPU工作站若干。所在的国家重点实验室和研究所拥有各类大型仪器设备，科研平台优势明显。课题组研究经费充足，有轻松愉快的工作和学习氛围，每位学生都有独立办公桌椅（带隔断），助研津贴按照研究所标准的上限范围发放，待遇优厚。如果你对高分子相关的计算机模拟或者实验研究感兴趣，欢迎你加入课题组！


论文专著 The monograph


1)Brownian Diffusion of Individual Janus Nanoparticles at Water/Oil Interfaces - ACS NANO. - - 2020, 14(8): 10095-10103
2)Building Block Design for Minimizing Defects in the Construction of Two-Dimensional Covalent Organic Frameworks - J PHYS CHEM LETT. - - 2020, 11(1): 179-183
3)Mechanisms of Defect Correction by Reversible Chemistries in Covalent Organic Frameworks - J PHYS CHEM LETT. - - 2020, 11(22): 9952-9956
4)Kinetics-controlled design principles for two-dimensional open lattices using atom-mimicking patchy particles - NANOSCALE. - - 2020, 12(7): 4544-4551.
5)A controlling parameter of topological defects in two-dimensional covalent organic frameworks - NANOSCALE. - - 2020, 12(43): 22107-22115
6)Influence of lamellar thickness on the transformation of isotactic polybutylene-1/carbon nanotube nanocomposites - CRYSTENGCOMM. - - 2020, 22(17): 2990-2997
7)Long-wavelength fluctuations and anomalous dynamics in 2-dimensional liquids - Proceedings of the National Academy of Sciences of - - 116 (46), 22977, 2019
8)Influence of the coexistence of thin and thick lamellae on the transformation from crystalline form II to form I in isotactic polybutylene-1 - POLYMER. - - 2020, 188: 122137
9)Probing Intermittent Motion of Polymer Chains in Weakly Attractive Nanocomposites - CHINESE J POLYM SCI. - - 2020, 38(6): 620-628
10)Effect of the self-assembled structures of hydrated polyzwitterionic and polyanionic brushes on their self-cleaning capabilities - Langmuir - - 35(20), 6669-6675, 2019
11)Heterogeneous dynamics of unentangled chains in polymer nanocomposites - JCP - - 150(18), 184903, 2019.
12)Coupling and decoupling between translational and rotational dynamics in supercooled monodisperse soft Janus particles - Soft Matter - - 15(16), 3343-3352, 2019.
13)Synthesis of Yolk-Shell Mesoporous Silica Nanoparticles via Facile One-pot Approach - ChemComm - 2017 - 2017
14)Hybridparticle-field molecular dynamics simulation for polyelectrolyte systems - Physical Chemistry Chemical Physics - 2016.3 - 2016.18
15)The relationship between local density and bond-orientational order duringcrystallization of the Gaussian core model - Soft Matter - 2016.2 - 2016.12
16)Supracolloidal helices from soft Janus particles by tuning particle softness - Nanoscale - 2016.2 - 2016.8
17)Probing heterogeneous dynamics from spatial density correlation in glass-formingliquids - Physical Review E - 2016.1 - 2016.94
18)A versatile model for soft patchy particles with various patch arrangements - Soft Matter - 2016.1 - 2016.12
19)The mechanism of the emergence of distinct overstretched DNA states - Journal of Chemical Physics - 2016.1 - 2016.144
20)Supracolloidal fullerene-like cages: gesign principles and formation mechanisms - Physical Chemistry Chemical Physics - 2016 - 2016.18
21)The scaling behavior ofthe second virial coefficient of linear and ring polymer - Science China-Chemistry - 2016.5 - 2016.59
22)A simple and effective boundary model in nonequilibrium moleculardynamics method - Chinese Journal of Polymer Science - 2016.9 - 2016.34