Prof. Dr. Fuzhou Wang | Chemistry | Best Researcher Award

Professor at Anhui University, China

Professional Profile 

ORCID Profile

Education

Professor Fuzhou Wang earned his Doctor of Engineering degree from Hiroshima University, Japan, where he specialized in organometallic and polymer chemistry. His academic journey was marked by excellence in catalysis and polymerization research, laying a strong foundation for his future work. During his doctoral studies, he focused on developing advanced catalysts for olefin polymerization, a crucial area in polymer science. His interdisciplinary training in inorganic chemistry, material science, and polymer engineering has allowed him to bridge the gap between fundamental chemistry and industrial applications. His education also involved extensive international collaboration, equipping him with a global perspective on polymer research. With a solid background in theoretical and applied chemistry, Professor Wang has built an outstanding academic profile that continues to impact the field. His expertise in catalyst design and polymer synthesis has propelled him to the forefront of research, fostering innovative advancements in polymeric materials.

Professional Experience

Professor Fuzhou Wang has had a distinguished professional career, contributing extensively to both academia and industry. He currently serves as a professor at Anhui University and holds leadership roles as the deputy director of the Chuzhou Research Institute and the head of the Polyolefin Industry R&D Team. His work focuses on bridging academic research with industrial applications, particularly in polymer chemistry. He has actively collaborated with major industry players such as ExxonMobil, enhancing the commercial viability of his research. In addition to his university roles, he founded Boqiang New Materials, a company dedicated to the development of sustainable polymer technologies. His career has been defined by a commitment to innovation, leading multiple national and provincial research projects. Through his extensive professional engagements, he has significantly contributed to the advancement of polymer science, catalysis, and material engineering, making him a recognized leader in both research and industrial innovation.

Research Interest

Professor Fuzhou Wang’s research interests span organometallic chemistry, catalysis, and polymer engineering, with a particular focus on olefin polymerization and water treatment technologies. His work revolves around the design and synthesis of novel catalysts for efficient and sustainable polymer production. He has made significant contributions to understanding polymerization mechanisms, particularly in the development of metallocene and post-metallocene catalysts for polyolefins. His research also explores functionalized polymer materials for environmental applications, such as advanced water purification systems. By integrating fundamental chemistry with applied engineering, he aims to develop eco-friendly and high-performance materials. His collaborations with industrial partners ensure that his research has real-world applications, impacting sectors such as packaging, automotive, and environmental sustainability. With a strong emphasis on green chemistry and polymer innovation, Professor Wang’s work continues to push the boundaries of material science and catalysis, positioning him as a leading figure in polymer research.

Award and Honor

Professor Fuzhou Wang has received numerous prestigious awards in recognition of his contributions to polymer chemistry and material science. He won the silver award in the 6th Anhui Province “Internet+” Innovation and Entrepreneurship Competition, highlighting his ability to translate research into practical applications. He was also named one of the “Most Beautiful Science and Technology Workers” in Hefei, reflecting his dedication to scientific progress. His achievements have been acknowledged through multiple provincial and national research grants, further solidifying his reputation as a leading researcher. Additionally, his contributions to the field of catalysis and polymerization have been recognized by various academic and industry organizations. His leadership in polymer research has also earned him invitations to speak at international conferences and contribute to high-impact scientific journals. Through his groundbreaking work, Professor Wang has established himself as a highly respected scientist, continuously driving advancements in polymer materials and sustainable chemistry.

Conclusion

Publications Top Noted

• Nickel Catalyst With Excellent Thermal Stability for Ethylene Polymerization and Copolymerization
  Authors: Wanlu Tian, Hengchao Guan, Wenbing Wang, Xin Kong, Wenmin Pang, Quan Wang, Fuzhou Wang, Chen Zou
  Year: 2025
  Source: Applied Organometallic Chemistry

• Preparation of polyethylene elastomers via controlled chain-walking ethylene polymerization for enhanced impact modification of polypropylene
  Authors: Yu Chen, Ning Wang, Di Zhang, Zhiyang Tian, Xin Lu, Pei Li, Muhammad Qasim, Fuzhou Wang
  Year: 2025
  Source: Polymer

• Steric and temperature effects in unsymmetrical α‐diimine nickel‐catalyzed ethylene and 1‐octene polymerization
  Authors: Jinke Shou, Pei Li, Wanlu Tian, Yue Liu, Shaojie Zhang, Fuzhou Wang, Chen Tan
  Year: 2024
  Source: Applied Organometallic Chemistry

• Positional heterogenization effect in salicylaldimine nickel catalyzed ethylene polymerization
  Authors: Fan Yu, Yanfeng Gong, Ning Liu, Guoyong Xu, Pei Li, Binyuan Liu, Chao Li, Fuzhou Wang
  Year: 2024
  Source: Journal of Applied Polymer Science

• Electronic effect regulated ethylene polymerization and copolymerization of phosphorus phenol nickel catalysts
  Authors: Yaping Xie, Feiran Yang, Qing Miao, Ziqiang Zhang, Wenbing Wang, Fuzhou Wang, Chen Zou
  Year: 2024
  Source: Applied Organometallic Chemistry

• Regulation of α-diimine nickel catalyzed olefin polymerization by remote site modifications
  Authors: Yufei Li, Yu Chen, Pei Li, Pingping Hu, Guoyong Xu, Chao Li, Shaojie Zhang, Fuzhou Wang
  Year: 2024
  Source: Polymer

• Chain‐walking polymerization of ethylene and 1‐octene with ortho‐phenyl‐based α‐diimine Ni (II) catalysts
  Authors: Jie Wu, Pei Li, Juan Zhang, Zhengquan Dong, Wu Li, Muhammad Sohail Bashir, Yougui Li, Fuzhou Wang
  Year: 2023
  Source: Applied Organometallic Chemistry

• Facile one-pot strategy to fabricate polyurea-based palladium for flow-through catalytic reduction of harmful hexavalent chromium from water
  Authors: Muhammad Sohail Bashir, Aqsa Safdar, Adnan Ibrahim, Inas A. Ahmed, Syed Shoaib Ahmad Shah, Ahsanullah Unar, Hanadi A. Almukhlifi, Ahmad M. Saeedi, Wang Fuzhou
  Year: 2023
  Source: Inorganic Chemistry Communications

• Steric and electronic effects in cationic pyridine carboxamidate nickel mediated ethylene polymerization and copolymerization with methyl 10-undecenoate
  Authors: Pei Li, Hongju Liu, Wanlu Tian, Zhanshan Ma, Xiaoyue Wang, Guoyong Xu, Chao Li, Muhammad Qasim, Fuzhou Wang
  Year: 2023
  Source: Polymer

• Polyethylene Foam
  Authors: Muhammad Sohail Bashir, Muhammad Qasim, Humaira Bashir, Fuzhou Wang
  Year: 2023
  Source: ACS Symposium Series

• A Multifunctional Biomass Zinc Catalyst for Epoxy-Based Vitrimers and Composites
  Authors: Wen Cai, Yongshuang Huang, Jie Li, Gang Yang, Fuzhou Wang, Guifu Si, Chen Tan
  Year: 2023
  Source: European Polymer Journal

• Facile strategy to fabricate palladium-based nanoarchitectonics as efficient catalytic converters for water treatment
  Authors: Fuzhou Wang, Muhammad Sohail Bashir, Chengyun Zhou, Chaohai Wang, Mika Sillanpää, Fuzhou Wang
  Year: 2023
  Source: Separation and Purification Technology

• Systematic study on interfacial polymerization mechanism of toluene diisocyanate and water for the preparation of polyurea microspheres
  Authors: Fuzhou Wang
  Year: 2022
  Source: Inorganic Chemistry Communications