IntroductionHUANG QIGU, Ph. Dr, Professor at College of Material Science and Engineering in BUCT. HUANG group major has been studied on the advanced and high performance polyolefin materials and the green technology for its. Overview of scientific research situation of Prof. Qigu Huang group: Prof. Qigu Huang got his Ph.D degree in polymer chemistry and physics from Zhongshan University in 2000. Then he had his post doctor positions at RIPP of SINPPEC in China, Alcala University in Spain and Sussex University in the UK for 4 years. He has worked at College of Material Science and Engineering in Beijing University of Chemical Technology (BUCT), Beijing, China from 2004 to now as a professor in polymer science area. His group's researching interests are as follows. (1) New methodologies for olefins controlled coordination polymerization, (2) new methods for the efficient use and high value transition of the fossil resources and biomass, (3) the design and synthesis of new catalysts and high performance/functional/degradable/reversible crossing polyolefin materials, (4) higher performance/functional composites and hybrid materials based on polyolefins and (5) the recycleuse methods of the waste and throwed polymers. More 100 publications published on these journals of Polymer, J of Polymer Science Part A, J of Applied Polymer Science, Journal of Industrial and Engineering Chemistry, Chinese Journal of Polymer Science, Catalyst Letters, J of Material Science, Industrial & Engineering Chemistry Research, Macromolecules, Langmuir, J of Materials Chemistry, Dalton Trans, Polymers, ACS Omega, Acta Polymerica Sinica, etc. More 100 patents were publicly available and authorized. Prof. Huang has taught the course of Manufacture Engineering of Polymers for undergraduate students and the course of Polymer Synthesis and Preparation for master and doctoral students in BUCT fore 20 years. His group's major has been attractive on the advanced and higher performance polyolefin materials and the green technology for its. To face the frontiers of science and technology at the area of olefins coordination polymerization in global, His group members have made these achievements. (1) To adjust the catalytic active sites for olefin coordination polymerization, his group proposed the new theory that with strong electron-withdrawing groups the catalysts are good for olefin polymerization to show higher catalytic activity and more stable even at higher polymerization temperature, and the obtained polymer has higher molecular weight. These catalysts intrinsically feature lower energy barrier for olefins polymerization and higher energy barrier for β-H elimination. (2) His group created the full hetero-ring organometallic catalysts for olefins coordination polymerization.The catalysts are also favorable for copolymerization of ethylene/propylene/polar monomers to produce functionalized polyolefins. As a speaker in The International Workshop on Catalytic Olefins Polymerization and High Performance Polyolefins in Shanghai, China, 2014-10-25, Prof. Huang first defined the copolymerization of ethylene/propylene/polar monomers as Polyolefin Dream, which meaning the research and the copolymers are important in academics and applcations. Now many researches have been reported in world. (3) His group made the new concept and method of Reversible Complexing-Opening Coordination Polymerization (RCOCP) for producing advanced polyolefin materials. EducationWork ExperienceSocial PositionSocial ActivitiesResearchStudy on the advanced and high performance polyolefin materials and the green technology. My group researching interests as follows. 1. New methodologies for olefins controlled coordination polymerization. 2. New Methods for the efficient use and high value transition of the fossil resources and biomass. 3. The design and synthesis of new catalysts and high performance/functional/degradable/reversible crossing polyolefin materials. 4. High performance/functional composites and hybrid materials based on polyolefins. 5. The recycleuse methods of the waste and throwed polymers.
TeachingTeaching Courses:(1) Manufacture Engineering of Polymers, (2) Polymer Synthesis and Preparation. PostgraduatesFunding1. NSFC, Grant No.20574003, 2006-2008 2. Innovation Fund of Petro-China, Grant No.07-06D01-04-04-06, 2007-2009 3. Beijing NSF, Grant No.2102036, 2010-2012 4. NSFC, Grant No.21174011, 2012-2015 5. NSFC, Grant No. U1462102, 2015-2017 6. Innovation Fund of Petro-China, Grant No.2011D-5006-0502, 2011-2013 7. The National Key Research and Development Program of China, Grant No.2021YFB2401501, 2021-2025 Vertical ProjectHorizontal ProjectPublications1.Xingyue Zhao,Han Li1,Jingjiao Liu,Kefeng Wang,Shaomeng Zhang,Tongtong Dou,Jiayong Li,Jicheng Yu,Hongming Li,Jing Wang,Chaojie Gai,Shangtao Chen,Shuanhong Li,Qigu Huang*.One-Step Synthesis of Multi-Block Copolymers of Isotactic Polypropylene (iPP) and Theoretical Studies on the Regioselectivity and Stereoselectivity of Polypropylene. Journal of Polymer Science, 2025, https://doi.org/10.1002/pol.20240738. 2.Jingjiao Liu, Jiaojiao Zhang, Min Sun, Hongming Li, Ming Lei, Qigu Huang*. Ethylene/Polar Monomer Copolymerization by [N, P] Ti Complexes: Polar Copolymers with Ultrahigh-Molecular Weight. : ACS Omega 2024, 9, 15030−15039. 3.Chen Xuelian, Huang Qigu*. Significantly tunable foaming behavior of blowing agent for polyethylene foam resin with a unique designed blowing agent system. ACS Omega, 2024, 9, 5798-5808. 4.Chen Xuelian, Huang Qigu*. Improved rotational foam molding properties of tailored polyethylene blends with higher crystallization temperature and viscosity-temperature sensitivity[J]. Polymers, 2022, 14(17), 3486, 1-11. 5.Chen Xuelian, Huang Qigu*. Model simulation and rheological research on crosslinking behavior of polyethylene resin. Gels, 2024, 10(1), 35, 1-11. 6.Shaomeng Zhang, Chunpeng Cao, Wensi Guo, Yuan Zhang, Min Sun, Wei Yang, Lei He, Qigu Huang*. Prominent Spatial Structure and Synergistic Linkage Effects in Bimetallic Titanium Olefin Polymerization Catalysts. Industrial & Engineering Chemistry Research. 2022, 61,17017-17026.https://doi.org/10.1021/acs.iecr.2c02855 7.Shaomeng Zhang, Dingkun Yuan, Feng Chen, Junqing Zhu, Wensi Guo, Yuan Zhang, Jiangping Guo, Qigu Huang*. J of Macromolecular Science, Part A Pure and Applied Chemistry. 2022, 59(3),202-210. 8.Xiaoqi Xia, Hongming Li, Chunman Li, Qing Miao, Jing Li, Feng Zhu, Qigu Huang*, Jianjun Yi, Zhong Zhao. The Preparation of Ultra-High Molecular Weight Polypropylene Using Ziegler-Natta Catalyst via Combining Internal Electron Donor and Cocatalyst Loading. China Petroleum Processing and Petrochemical Technology, 2021, 23(3), 12-22. 9.Li Li, Rui Xin, Huihui Li, Xiaoli Sun,* Zhongjie Ren, Qigu Huang,* Shouke Yan*. Tacticity-Dependent Epitaxial Crystallization of Poly(L lactic acid) on an Oriented Polyethylene Substrate. Macromolecules, 2020,53(19),8487-8493. 10.Jiaojiao Zhang, Feng Nan, Hongchao Yu, Shaomeng Zhang, XiaoQi Xia, Qigu Huang*, Jianjun Yi, Hongming Li, and Zhong Zhao. Direct Preparation of Transparent Isotactic Polypropylene with Supported Ziegler–Natta Catalysts Containing Novel Eco-friendly Internal Electron Donors. Industrial & Engineering Chemistry Research. 2020, 59 (19), 8995-9003 11.Li Li, Jian Hu, Yunpeng Li, Qigu Huang*, Xiaoli Sun, and Shouke Yan*. Evidence for the Soft and Hard Epitaxies of Poly(L lactic acid) on an Oriented Polyethylene Substrate and Their Dependence on the Crystallization Temperature. Macromolecules, 2020,53, 1745−1751. 12.Li Li,Shujing Zhang,Meiling Xue,Xiaoli Sun, Zhongjie Ren, Huihui Li,*Qigu Huang*,Shouke Yan. Band Spacing in Poly(3-hydroxybutyrate) and Its Blends with Poly(propylene carbonate): Dependence on Thermal Processing. Langmuir 2019, 35, 11167−11174. 13. Jing Wang, Lei He, Feng Nan, Fan Wang, Hongming Li, Jingjiang Wang, Dong Liu, Ming Lei, Longfei Li, Qigu Huang*, Wantai Yang. Investigation on terpolymer of ethylene/propylene/ω-bromo-α-olefins catalyzed by titanium complexes. J of Material Science, 2017, 52, 5981-5991. 14. Hongming Li, Jing Wang, Lei He, Feng Nan, Fan Wang, Wantai Yang, Fan Wang,Tianxu Sun, Qigu Huang*, Jianjun Yi. Study on Hydrogen Sensitivity of Ziegler–Natta Catalysts with Novel Cycloalkoxy Silane Compounds as External Electron Donor. Polymers, 2016, 8(12),433. doi:10.3390/polym8120433 15.Jing Wang, Feng Nan, Jiangping Guo, Jian Wang, Xianghui Shi, Haibing Huang, Qigu Huang*, Wantai Yang. Copolymers of Ethylene and Vinyl Amino Acidic Ester with High Molecular Weight Prepared by Non-metallocene Catalysts. Catalyst Letters, 2016, 146(3), 609-619. 16.Jing Wang, Mengshan Yu, Wanhe Jiang, Yang Zhou, Fengjiao Li, Lu Cheng, Jianjun Yi, Qigu Huang* Yunfang Liu, Wantai Yang. The preparation of nanosized polyethylene particles via carbon sphere nanotemplates. Industrial & Engineering Chemistry Research. 2013, 52, 17691-17694. 17.Xinli Zhang, Zhi Liu, Jianjun Yi, Fengjiao Li, Haibing Huang, Wei Liu, Hongpeng Zhen, Qigu Huang*, Kejing Gao, Wantai Yang. Copolymerization of Ethylene with Acrylonitrile Promoted by Novel Non-Metallocene Catalysts with Phenoxy-Imine Ligands. J of Polymer Science, part A, Polymer Chemistry, 2012, 50, 2068-2074. 18. Qigu Huang*, Liguo Chen, Shangan Lin, Qing Wu, Fangmin Zhu ,Shiyan Zhifeng Fu, Wantai Yang. Syndiospecific Polymerization of Styrene Catalyzed by Half-Titanocene Catalysts. Polymer, 2006, 47:767. 19. Qigu Huang, Qing Wu, Fangming Zhu, Shangan Lin. Synthesis and Characterization of High Molecular Weight Atactic Polybutene-1 with Half-titanocene/MAO Catalyst System. Journal of Polymer Science, Part A: Polymer Chemistry,2001,Vol.39, 4068. 20.Qigu Huang, Haibing Huang, Jiangping Guo, et al. Full hetero-ring non-metallocene catalsts and its preparation and its uses[P]. CN201310108975.1(2013). Awards1. CNPC Basic Research Award Certificate (No. 2017-JC-3-02-D02). 2. CNPC Patent Excellence Award Certificate ( No. ZLJ-2021-FMR03). PatentHonor RewardAdmissions Information |