學術經歷:
(1). 2001.9-2005.7: 吉林大學化學學院,化學專業,本科;
(2). 2005.9-2010.7: 吉林大學理論化學研究所,物理化學專業,博士(導師:孫家鐘、呂中元);
(3). 2010.7-2018.12: 吉林大學理論化學研究所,講師、副教授;
其中:2011.1-2013.9:吉林大學超硬材料國家重點實驗室,師資博士后(合作導師:崔田);
2015.5-2016.8: 德國達姆施塔特工業大學化學系,洪堡學者(合作導師:F. Mueller-Plathe);
(4). 2018.12-現在:華南師范大學化學與環境學院,教授,博士生導師。
個人簡介:
劉鴻,男,教授,博士生導師,德國洪堡學者,國家“優青”。研究方向為功能高分子材料理論設計與模擬。如何在大尺度模擬中協同考慮聚合物松弛與聚合反應動力學是當前高分子物理研究中公認的難點。劉鴻博士多年來一直從事功能性高分子材料的理論設計與模擬工作,基于高分子反應動力學模型發展了粗粒化分子動力學耦合聚合反應的方法,可準確且高效地描述多種反應類型。進一步利用該方法研究并闡明了表面引發聚合反應中影響聚合物刷結構與性質的因素,明確了接枝聚合物材料的浸潤性增強機理,解決了實驗中聚合反應調控材料結構方面的多個重要問題。近年來在Science, ACS Macro Letters,Macromolecules,J. Chem. Phys.等學術期刊發表研究論文90余篇。
學術兼職:
國際期刊Polymers(JCR Q1, IF4.95)雜志編委
國際期刊Frontiers in Molecular Biosciences(JCR Q1, IF6.113)雜志編委
國際期刊Materials Futures(SLAB,IOP CAS and IOP Publishing)雜志青年編委
ORCID:
0000-0002-7256-5751
代表性論文:
1. Liu, H.; Xue, Y.-H.; Zhu, Y.-L.; Gu, F.-L.; Lu, Z.-Y.*, Inverse Design of Molecular Weight Distribution in Controlled Polymerization via a One-Pot Reaction Strategy. Macromolecules 2020, 53 (15), 6409-6419.
2. Yi, C.; Liu, H.; Zhang, S.; Yang, Y.; Zhang, Y.; Lu, Z.; Kumacheva, E.*; Nie, Z.*, Self-limiting directional nanoparticle bonding governed by reaction stoichiometry. Science 2020, 369 (6509), 1369-1374.
3. Yan, Y.-D.; Xue, Y.-H.; Zhao, H.-Y.; Liu, H.*; Lu, Z.-Y.; Gu, F.-L., Insight into the Polymerization-Induced Self-Assembly via a Realistic Computer Simulation Strategy. Macromolecules 2019, 52 (16), 6169-6180.
4. Xing, J.-Y.; Xue, Y.-H.; Lu, Z.-Y.*; Liu, H.*, In-Depth Analysis of Supramolecular Interfacial Polymerization via a Computer Simulation Strategy. Macromolecules 2019, 52 (17), 6393-6404.
5. Liu, H.; Zhao, H.-Y.; Müller-Plathe, F.; Qian, H.-J.; Sun, Z.-Y.; Lu, Z.-Y.*, Distribution of the Number of Polymer Chains Grafted on Nanoparticles Fabricated by Grafting-to and Grafting-from Procedures. Macromolecules 2018, 51 (10), 3758-3766.
6. Xue, Y.-H.; Quan, W.; Liu, X.-L.; Han, C.; Li, H.; Liu, H.*, Dependence of Grafted Polymer Property on the Initiator Site Distribution in Surface-Initiated Polymerization: A Computer Simulation Study. Macromolecules 2017, 50 (17), 6482-6488.
7. Liu, H.*; Zhu, Y.-L.; Lu, Z.-Y.; Müller-Plathe, F., A kinetic chain growth algorithm in coarse-grained simulations. Journal of Computational Chemistry 2016, 37 (30), 2634-2646.
8. Liu, H.; Zhu, Y. L.; Zhang, J.; Lu, Z. Y.*; Sun, Z. Y.*, Influence of Grafting Surface Curvature on Chain Polydispersity and Molecular Weight in Concave Surface-Initiated Polymerization. ACS Macro Letters 2012, 1 (11), 1249-1253.
9. Liu, H.; Li, M.*; Lu, Z. Y.*; Zhang, Z. G.; Sun, C. C.; Cui, T., Multiscale Simulation Study on the Curing Reaction and the Network Structure in a Typical Epoxy System. Macromolecules 2011, 44 (21), 8650-8660.
10. Liu, H.; Li, M.; Lu, Z. Y.*; Zhang, Z. G.; Sun, C. C., Influence of Surface-Initiated Polymerization Rate and Initiator Density on the Properties of Polymer Brushes. Macromolecules 2009, 42 (7), 2863-2872.