Posted on 06/07/202406/07/2024 by sciencefatherLeave a Comment on Fangyuan Hu | Materials Science | Best Researcher Award 56 / 100 Powered by Rank Math SEO Prof Dr. Fangyuan Hu | Materials Science | Best Researcher Award Professor Doctoral at Walter Sisulu University, South Africa. Fangyuan Hu is a distinguished academic and researcher currently serving as Deputy Dean at the School of Materials Science and Engineering, Dalian University of Technology. He earned his Ph.D. in Polymer Chemistry and Physics from Dalian University of Technology in 2014, followed by a successful tenure as a postdoctoral fellow at the same institution. Hu is recognized as a key member of China’s Ministry of Science and Technology innovation team, with extensive experience leading national research projects and fostering collaborations between academia and industry. His research focuses on advanced materials for energy storage and he has published widely, holds numerous patents, and contributes actively to the scientific community through editorial roles and professional memberships. Professional Profiles: Scopus Profile Education 🎓 Received Ph.D. degree from Dalian University of Technology (DUT) in 2014, majoring in Polymer Chemistry and Physics. Professional Experience Worked as a postdoctoral fellow at Dalian University of Technology (DUT) after obtaining Ph.D. Currently serving as Deputy Dean at the School of Materials Science and Engineering, DUT. Extensive experience includes leadership roles in national research projects and collaborations with industry and academic bodies. Research Interest Fangyuan Hu, currently serving as Deputy Dean at the School of Materials Science and Engineering, Dalian University of Technology, has established a prominent research profile centered on cutting-edge advancements in energy storage materials and technologies. With a Ph.D. in Polymer Chemistry and Physics from Dalian University of Technology and extensive postdoctoral experience within the institution, Hu’s research focuses on developing novel electrode materials based on rigid aromatic heterocyclic polymers. Additionally, Hu explores high ionic conductivity, high-temperature resistant polymer electrolytes, and the design of intelligent energy devices. These endeavors not only contribute significantly to the academic field but also foster collaborations with industry and national research projects, demonstrating Hu’s leadership in advancing sustainable energy solutions. Award and Honors Fangyuan Hu has received several prestigious awards and honors for his outstanding contributions to materials science and engineering, particularly in the field of energy materials. These accolades recognize his leadership and innovative research in developing novel electrode materials and high-performance energy devices. Hu’s achievements have been celebrated with awards from national bodies and industry partners, highlighting his significant impact on advancing sustainable energy solutions through pioneering research and collaborations. Research Skills Fangyuan Hu possesses exceptional skills in polymer chemistry, materials science, and electrochemistry. His expertise includes the development of rigid aromatic heterocyclic polymer-based electrode materials, high-temperature resistant polymer electrolytes, and intelligent energy device architectures. Hu is adept at leading interdisciplinary research projects, publishing prolifically in high-impact journals, and securing numerous patents. He demonstrates strong leadership in academic and industry collaborations, contributing significantly to advancements in energy storage technologies and sustainable materials innovation. Publications An all-biomaterials-based aqueous binder based on adsorption redox-mediated synergism for advanced lithium–sulfur batteries Year: 2024 Citations: 0 Authors: Jiang, W., Zhang, T., Mao, R., Jian, X., Hu, F. Journal: eScience Flexible carbon fiber membrane derived from polypropylene for symmetric quasi-solid-state supercapacitors Year: 2024 Citations: 0 Authors: Liu, Q., Yang, M., Deng, Y., Jian, X., Chen, Y. Journal: Journal of Power Sources Electrospun Core-Shell Carbon Nanofibers as Free-Standing Anode Materials for Sodium-Ion Batteries Year: 2024 Citations: 0 Authors: Li, B., Pei, M., Qu, Y., Jian, X., Hu, F. Journal: ACS Applied Nano Materials Advanced Polymers in Cathodes and Electrolytes for Lithium–Sulfur Batteries: Progress and Prospects Year: 2024 Citations: 3 Authors: Song, Z., Jiang, W., Li, B., Jian, X., Hu, F. Journal: Small Ten-Minute Synthesis of a New Redox-Active Aqueous Binder for Flame-Retardant Li-S Batteries Year: 2024 Citations: 7 Authors: Zhang, T., Li, B., Song, Z., Jian, X., Hu, F. Journal: Energy and Environmental Materials “Like Compatible Like” Strategy Designing Strong Cathode-Electrolyte Interface Quasi-Solid-State Lithium–Sulfur Batteries Year: 2024 Citations: 2 Authors: Song, Z., Wang, L., Jiang, W., Jian, X., Hu, F. Journal: Advanced Energy Materials A Small-Molecule Organic Cathode with Extended Conjugation toward Enhancing Na+ Migration Kinetics for Advanced Sodium-Ion Batteries Year: 2024 Citations: 1 Authors: Yao, Y., Pei, M., Su, C., Jian, X., Hu, F. Journal: Small 3D Adsorption-Mediator Network Polymer Binders Improve Redox Kinetics and Flame Retardant Performance for High Loading Lithium–Sulfur Batteries Year: 2023 Citations: 7 Authors: Li, B., Zhang, T., Song, Z., Jian, X., Hu, F. Journal: Advanced Functional Materials Skeleton-flesh shape of multipath Li+ transport and compatible interfacial composite solid electrolyte for stable Li-metal batteries Year: 2023 Citations: 1 Authors: Wang, X., Dong, X., Song, X., Huang, H., Qi, M. Journal: Journal of Energy Storage Promising single-atom catalysts for lithium-sulfur batteries screened by theoretical density functional theory calculations Year: 2023 Citations: 0 Authors: Song, C., Hu, F., Zhang, T., Yao, M., Jian, X. Journal: Science China Materials Fangyuan Hu | Materials Science | Best Researcher Award