Dr at Harbin Institute of Technology China
Dr. Fanpeng Kong is an Associate Professor at the School of Chemistry and Chemical Engineering, Harbin Institute of Technology, China. He completed his doctoral studies in Electrochemistry at Harbin Institute of Technology, followed by a visiting scholarship at the University of Western Ontario, Canada. Dr. Kong’s research focuses on electrochemical energy conversion, particularly in oxygen reduction reactions and methanol oxidation. He has published several high-impact papers in renowned journals such as Angewandte Chemie and ACS Catalysis. A member of the Chinese Chemical Society, he also serves on the editorial boards of Frontiers in Energy Research and The Innovation.
Publication profile
Scopus
Scholar
Research for Best Researcher Award: Dr. Fanpeng Kong
š Strengths for the Award
Expertise in Electrochemistry: Dr. Fanpeng Kong has a strong background in electrochemistry, evidenced by his comprehensive education at Harbin Institute of Technology and international experience as a visiting student at the University of Western Ontario. His research focuses on high-impact areas such as oxygen reduction reactions (ORR) and solid-state batteries, which are crucial for advancing sustainable energy technologies. High-Impact Publications: Dr. Kong has authored several influential papers in prestigious journals, including Angewandte Chemie, Science Advances, and ACS Catalysis. His work on dual-atom catalysts and solid-state batteries demonstrates his ability to contribute to cutting-edge research in energy storage and conversion. International Collaboration: His collaboration with international researchers, particularly during his time in Canada, highlights his ability to work across borders and contribute to global scientific endeavors. This international experience enriches his research with diverse perspectives and methodologies. Academic Recognition: Dr. Kong’s roles as a Guest Editor for Frontiers in Energy Research and as a member of the Young Editorial Board for The Innovation reflect his recognition as an emerging leader in his field. His membership in the Chinese Chemical Society further indicates his active involvement in the scientific community. Innovative Research: Dr. Kong’s work is at the forefront of developing new materials and catalysts for energy applications. His research on tailoring atomic strain environments and engineering crystal structures for high-performance batteries showcases his innovative approach to solving complex problems in electrochemistry.
š Areas for Improvement
Broader Application of Research: While Dr. Kong’s research is highly technical and specialized, there could be more emphasis on the practical applications and commercialization potential of his work. Highlighting how his research can lead to real-world solutions for energy challenges could strengthen his case for broader recognition. Public Science Communication: Increasing efforts to communicate his research to a non-specialist audience could enhance the public’s understanding of his work’s importance. Engaging in outreach activities or writing popular science articles could help bridge the gap between his research and its societal impact. Interdisciplinary Collaboration: Expanding his collaborations to include researchers from fields such as materials science, environmental engineering, and industrial chemistry could lead to innovative interdisciplinary projects that further amplify the impact of his research.
š Education
Doctoral Studies in Electrochemistry Harbin Institute of Technology, China (2014 – 2019) Supervised by Prof. Dr. Geping Yin. Visiting Student
University of Western Ontario, Canada (2017 – 2019) Supervised by Prof. Dr. Xueliang (Andy) Sun. Undergraduate Studies in Electrochemistry
Harbin Institute of Technology, China (2010 – 2014)
š¢ Professional Appointments
Associate Professor School of Chemistry and Chemical Engineering, Harbin Institute of Technology, China (2023 – Present). Assistant Professor
School of Chemistry and Chemical Engineering, Harbin Institute of Technology, China (2020 – 2022)
š Honors & Awards
Member: Chinese Chemical Society. Guest Editor: Frontier in Energy Research. Young Editorial Board: The Innovation
Publication top notes
- Title: Light Enables the Cathodic Interface Reaction Reversibility in Solid-State Lithium-Oxygen Batteries
Authors: Ren, L., Zheng, M., Kong, F., Jiang, Z., Wang, J.
Journal: Angewandte Chemie – International Edition, 2024, 63(17), e202319529
Citations: 0
- Title: Tailoring atomic strain environment for high-performance acidic oxygen reduction by Fe-Ru dual atoms communicative effect
Authors: Li, L., Zhu, J., Kong, F., Du, C., Yin, G.
Journal: Matter, 2024, 7(4), pp. 1517ā1532
Citations: 6
- Title: Maintaining Interfacial Transports for Sulfide-Based All-Solid-State Batteries Operating at Low External Pressure
Authors: Zhao, W., Zhang, Y., Sun, N., Lou, S., Wang, J.
Journal: ACS Energy Letters, 2023, 8(12), pp. 5050ā5060
Citations: 8
- Title: Concentration induced modulation of solvation structure for efficient lithium metal battery by regulating energy level of LUMO orbital
Authors: Kang, C., Zhu, J., Wang, Y., Kong, F., Yin, G.
Journal: Energy Storage Materials, 2023, 61, 102898
Citations: 10
- Title: Uncovering the degradation mechanism induced by ion-diffusion kinetics in large-format lithium-ion pouch cells
Authors: Zhou, S., Zhang, X., Chen, C., Qiao, Y., Wang, J.
Journal: Journal of Energy Chemistry, 2023, 83, pp. 98ā105
Citations: 6
- Title: Solvent effect to modulate nitrogen dopant in Co-N-C catalysts for oxygen reduction reaction acceleration
Authors: Li, L., Han, G., Wen, Y., Du, C., Yin, G.
Journal: Fuel, 2023, 345, 128199
Citations: 5
- Title: Erratum: Effective transport network driven by tortuosity gradient enables high-electrochem-active solid-state batteries
Authors: Liu, Q.-S., An, H.-W., Wang, X.-F., Wang, J., Wang, J.-J.
Journal: National Science Review, 2023, 10(7), nwad135
Citations: 0
š Conclusion
Dr. Fanpeng Kong is a strong candidate for the Research for Best Researcher Award due to his significant contributions to electrochemistry, high-impact publications, and recognized leadership in the field. His innovative research on energy storage and conversion positions him as a leading figure in sustainable energy research. By focusing on the broader application of his work, public communication, and interdisciplinary collaboration, Dr. Kong can further elevate his research profile and maximize the impact of his contributions.