IntroductionProf. Jianmin Lu is a professor of college of Materials Science and Engineering at Beijing University of Chemical Technology. He received his B.S. and M.S. from Beijing Normal University and obtained his Ph.D. under the supervision of Prof. Wantai Yang from Beijing University of Chemical Technology. The major areas of his research work are anionic polymerization and elastomer preparation. More recently, his research interests focus on the functionalization of SSBR, TPSs, liquid rubber and preparation of high-temperature hydrocarbon polymers. Educational Background: Ph.D., Polymer Chemistry and Physics, Beijing University of Chemical Technology, June 2008 M.Sc., Radiation Chemistry, Beijing Normal University, June 1996 B.Sc., Chemistry, Beijing Normal University, June 1993 Experience 1996- Lecturer/Associate Professor/Professor, College of Materials Science and Engineering, Beijing University of Chemical Technology EducationWork ExperienceSocial PositionSocial ActivitiesResearch(1) Anionic polymerization theory and application; (2) Designation and preparation of elastomer (TPSs, SSBR, LCBR, Liquid rubber etc.); (3) Functionalization of hydrocarbon polymer; (4) Manufacture engineering of anionic polymerization products; TeachingPolymer Chemistry PostgraduatesFundingPreparation of highly functionalized comb-like SSBR by thio-ene click reaction and the structure-performances relations (National Natural Science Foundation of China, grant No. 51473010) Vertical ProjectHorizontal ProjectPublications(1) A metal-free method for ultra-high molecular weight polyacrylonitrile under dimethyl sulfoxide ,Guanchun Rui, Qiang Lv, Jianmin Lu*, Tianyu Wu, Shuai Zhao, Rundong Huang, Bingyong Han *, Wantai Yang.Polymer.2021,214, 123245 (2) Qing Yin, Jianmin Lu*, Qiang Lv,Bingyong Han*. A convenient method of producing in-chain tetraphenylethylene based AIE-active conjugated polymer for explosive detection via dehydrogenation of an alternative copolymer of 1,3-cyclohexadiene and trans-stilbene. Materials Letters, 2020,269,127645 (3) Zhang, J. W.; Lu, J. M.; Su, K.; Wang, D. F.; Han, B.Y. Preparation, Carbon Black Dispersibility and Performances of Novel Bio-based Integral Solution-polymerized Styrene-Butadiene Rubber with β-Myrcene Bottlebrush Segments. J Mater Sci. 2020. 55(35), 16544–16560. (4) Wei Gao, Jianmin Lu,* Wenna Song, Jianfang Hu, and Bingyong Han*.Solution Mechanochemical Approach for Preparing High-Dispersion SiO2‑g‑SSBR and the Performance of Modified Silica/SSBR Composites. Industrial & Engineering Chemistry Research(2019), 58(17), 7146-7155 (5) Wei Gao, Jianmin Lu*, Wenna Song, Jianfang Hu and Bingyong Han*.Interfacial interaction modes construction of various functional SSBR–silica to high filler dispersion and excellent composites performances.RSC advances 2019, 9(33), 18888–18897 (6) Xiaohui Wu, Junchi Zheng, Bingyong Han, Liqun Zhang,*, Jianmin Lu,*,Xin Ye,*.Designing novel epoxy-terminated polybutadiene to construct chemical interface between nanosilica and rubbers with green nature. COMPOSITES PART B-ENGINEERING 178 (2019) 107451. (7) Yang Cai; Jianmin Lu*; Danlin Zuo; Shihui Li; Dongmei Cui; Bingyong Han ; Wantai Yang, Extremely High Glass Transition Temperature Hydrocarbon Polymers Prepared through Cationic Cyclization of Highly 3,4-Regulated Poly(Phenyl-1,3-Butadiene), Macromol. Rapid Commun.(2018),3:1800298 (8) Xuan Qin,, Bingyong Han, Jianmin Lu, Zhao Wang, Zheng Sun, Dong Wang,Thomas P. Russell*, Liqun Zhang*, Jun Liu**.Rational design of advanced elastomer nanocomposites towards extremely energy-saving tires based on macromolecular assembly strategy.Nano Energy 48 (2018) 180–188 (9) Yang Cai, Jianmin Lu*, Gaifeng Jing, Wantai Yang, Bingyong Han*. High-Glass-Transition-Temperature Hydrocarbon Polymers Produced through Cationic Cyclization of Diene Polymers with Various Microstructures. Macromolecules (2017), 50 (19), 7498–7508. (10) Minglu Huang, Jianmin Lu*, Bingyong Han*, Jingwei Liu, He Qiao, and Liqun Zhang. Covalent approach for in situ enhancement of interaction between pristine graphene and styrene-butadiene rubber by copolymerizing p-(2,2,2-triphenylethyl) styrene with a thermally decomposed pendant. Journal of Applied Polymer science. 2017,134(27), 44923 (11) Huang, Minglu; Lu, Jianmin*; Han, Bingyong*; Qiu, Ming; Zhang, Liqun. Covalent Grafting Approach for Improving the Dispersion of Carbon Black in Styrene-Butadiene Rubber Composites by Copolymerizing p-(2,2'-Diphenylethyl)styrene with a Thermally Decomposed Triphenylethane Pendant. Industrial & Engineering Chemistry Research(2016), 55(35), 9459-9467 AwardsThe second Prize of Basic Research Award of China National Petroleum Corporation (2018) PatentHonor RewardAdmissions Information |