Prof. Weidong Fan | Chemistry | Best Researcher Award

Dr. Weidong Fan is an accomplished Associate Professor in the Department of New Energy Materials at China University of Petroleum (East China). With a Ph.D. in Chemistry and extensive research expertise, Dr. Fan has significantly contributed to the fields of energy gas storage, separation of petroleum-based compounds, and advanced crystalline microporous adsorbents. A prolific researcher, he has authored over 100 SCI academic papers, with over 4,500 citations and an impressive H-index of 36. Dr. Fan’s groundbreaking work has been recognized with prestigious awards, including the Qingdao Natural Science Award and the Global Top 2% Scientists distinction. He serves on editorial boards of multiple esteemed journals and has supervised several graduate students, demonstrating his dedication to both research and mentorship.

Professional Profile

• Scopus Profile

Education

Dr. Fan completed his Bachelor’s in Applied Chemistry at Shengli College, China University of Petroleum, in 2013. He pursued a Master’s in Chemistry at the same university from 2013 to 2016. Subsequently, he earned his Ph.D. in Chemistry from China University of Petroleum (East China) in 2019. These formative academic experiences laid the groundwork for his expertise in chemistry and materials science.

Professional Experience

Dr. Fan has held key academic positions, beginning as a Postdoctoral Fellow at the National University of Singapore (2019–2021), where he gained international exposure to advanced research methodologies. In 2022, he served as a Special Associate Professor at China University of Petroleum (East China) before being promoted to Associate Professor in 2023. His roles involve extensive research, teaching, and supervision of graduate students, fostering innovation in chemistry and materials science.

Research Interests

Dr. Fan’s research focuses on the controllable preparation of crystalline microporous adsorbents and separation membranes. He specializes in energy gas storage and the separation of petroleum-based compounds, including hydrogen, methane, carbon dioxide, and alkenes. His work also encompasses the purification of natural gas and the precise separation of benzene derivatives and isomers, advancing sustainable energy solutions.

Research Skills

Dr. Fan possesses advanced research skills in the design, synthesis, and functionalization of metal-organic frameworks (MOFs) and covalent organic frameworks (COFs). His expertise includes spectroscopic techniques, crystallographic analysis, gas adsorption studies, and computational simulations. He is adept at leading collaborative, interdisciplinary projects, evident in his extensive list of high-impact publications and global collaborations.

Awards and Honors

Dr. Fan has received numerous accolades, including the second prize of the Qingdao Natural Science Award (2024) and the Basic Research Achievement Award by the Chemical Industry and Engineering Society of China (2023). He was named a Young Expert under the Mount Taishan Scholars Program in 2022 and has been listed among the Global Top 2% Scientists for multiple years. These honors underscore his leadership and innovation in the field of chemistry.

Conclusion 🏆

Weidong Fan is a highly deserving candidate for the Best Researcher Award due to his groundbreaking contributions to chemistry and materials science, particularly in energy gas storage and separation technologies. His strong publication record, international recognition, and impactful mentorship position him as a leader in his field. While his academic achievements are outstanding, increased industrial engagement and societal outreach could further solidify his candidacy.

Publication Top Notes

1. Metal-organic framework for hydrogen storage: Advances and challenges brought by the new technologies
   • Authors: Qiao, L.; Lu, C.; Fan, W.; Kang, Z.; Sun, D.
   • Year: 2024
2. Pore surface fluorination and PDMS deposition within commercially viable metal-organic framework for efficient C2H2/CO2 separation
   • Authors: Liu, H.; Wang, X.; Gao, F.; Fan, W.; Sun, D.
   • Year: 2024
3. Porous organic cage induced high CO2/CH4 separation efficiency of carbon molecular sieve membranes
   • Authors: Yu, L.; Hao, L.; Zhang, C.; Kang, Z.; Sun, D.
   • Year: 2024
   • Citations: 2
4. Metal-organic frameworks for hydrogen isotopes separation
   • Authors: Gao, F.; Wang, X.; Chen, W.; Yuan, D.; Sun, D.
   • Year: 2024
5. Asymmetrical Modification of Cyclopentadienyl Cobalt in Eu-MOF for C2H2/CO2 Separation
   • Authors: Wang, X.; Liu, H.; Sun, M.; Fan, W.; Sun, D.
   • Year: 2024
6. Precise Pore Engineering of Zirconium Metal-Organic Cages for One-Step Ethylene Purification from Ternary Mixtures
   • Authors: Feng, X.; Wang, X.; Yan, H.; Yue, Q.; Sun, D.
   • Year: 2024
   • Citations: 7
7. Stepwise pillar-ligand fluorination strategy within interpenetrated metal–organic frameworks for efficient C2H2/CO2 separation
   • Authors: Liu, H.; Wang, X.; Wang, Y.; Fan, W.; Sun, D.
   • Year: 2024
   • Citations: 2
8. A Precise Microreactor for Ultralong Visible Chemiluminescence
   • Authors: Wang, Y.; Fu, M.; Sun, M.; Fan, W.; Sun, D.
   • Year: 2024
9. Assembling ionic liquid into porous molecular filler of mixed matrix membrane to trigger high gas permeability, selectivity, and stability for CO2/CH4 separation
   • Authors: Yu, L.; Hao, L.; Feng, Y.; Kang, Z.; Sun, D.
   • Year: 2024
   • Citations: 4
10. Tunable Nonlinear Optical Properties Based on Metal–Organic Framework Single Crystals
    • Authors: Yuan, H.; Xu, X.; Qiao, Z.; Zhang, M.; Ji, W.
    • Year: 2024
    • Citations: 2