researcher at Dalian Institute of Chemical Physics, Chinese Academy of Sciences, China
A distinguished researcher in chemical engineering, specializing in energy storage and battery technologies, with extensive contributions to solid-state lithium batteries and lithium-sulfur systems. Currently a Researcher at the Dalian Institute of Chemical Physics (DICP), Chinese Academy of Sciences, they have authored over 100 high-impact papers with an H-index of 51 and 8,900+ citations. Recognized globally, they are part of the world’s top 2% of scientists (2022-2024).
Publication Profile
scopus
🎓 Education
🏅 2013-2018: Doctor of Engineering, Chemical Engineering, DICP, Chinese Academy of Sciences (Supervisor: Zhang Huamin) 2016-2018: Joint Ph.D. Trainee, University of Western Ontario (Mentor: Sun Xueliang) 2009-2013: Bachelor of Engineering, Anhui University (Supervisor: Zhou Hongping) – GPA 3.64/4.0, ranked 2/86
🧪 Experience
🔬 2022-Present: Researcher, DICP, Chinese Academy of Sciences 2021-2022: Associate Researcher, DICP 2018-2021: Postdoctoral Fellow, University of Western Ontario (Supervisor: Sun Xueliang 2013-2018: PhD Researcher, DICP 2016-2018: Joint PhD, University of Western Ontario
🏆 Awards and Honors
⭐ 2023: Outstanding Youth of Liaoning Province 2022: Special Talent Program, Chinese Academy of Sciences 2022: “Zhang Dayu” Young Scholar 2020: Mitacs Elevate Fellowship 2018: Yanchang Petroleum Outstanding Doctoral Scholarship 2017: National Scholarship 2017: “Lu Jiaxi” Outstanding Graduate Award
🔋 Research Focus
⚡ Solid-state lithium battery materials and device development Lithium-sulfur batteries: cathode design, ion/electron transport Structural design for lithium dendrite inhibitio Metal sulfide electrocatalysis for high-load batteries High-voltage/high-power battery optimization
Publications 📖
1. 📝 Improved sodium storage performance via regulating surface oxygen containing functional groups and microstructure of lignin-derived hard carbon
Authors: Mirza, S., Han, J., Ying, G., Zheng, Q., Li, X.
Journal: Journal of Energy Storage, 2025, 107, 114969
Citations: 0
2. 🧪 Zinc-Ferricyanide Flow Batteries Operating Stably under −10 °C
Authors: Zhi, L., Liao, C., Xu, P., Yuan, Z., Li, X.
Journal: Angewandte Chemie International Edition, 2024, 63(51), e202412559
Citations: 1
3. 🔬 In Situ Molecular Reconfiguration of Pyrene Redox-Active Molecules for High-Performance Aqueous Organic Flow Batteries
Authors: Ge, G., Li, F., Yang, M., Zhang, C., Li, X.
Journal: Advanced Materials, 2024, 36(49), 2412197
Citations: 0
4. ⚡ Unveiling Intercalation Chemistry via Interference-Free Characterization Toward Advanced Aqueous Zinc/Vanadium Pentoxide Batteries
Authors: Li, X., Xu, Y., Chen, X., Li, X., Fu, Q.
Journal: Advanced Science, 2024, 11(40), 2405134
Citations: 1
5. 🌱 Air-stable naphthalene derivative-based electrolytes for sustainable aqueous flow batteries
Authors: Zhao, Z., Li, T., Zhang, C., Li, S., Li, X.
Journal: Nature Sustainability, 2024, 7(10), 1273–1282
Citations: 0
6. 🔋 Surface passivation of lithium nitride as pre-lithiation reagents to enhance its air-stability
Authors: Liu, C., Zhang, H., Li, T., Yang, X., Li, X.
Journal: Journal of Energy Storage, 2024, 99, 113256
Citations: 0
7. ⚙️ Bismuth Single Atoms Regulated Graphite Felt Electrode Boosting High Power Density Vanadium Flow Batteries
Authors: Xing, F., Fu, Q., Xing, F., Liu, T., Li, X.
Journal: Journal of the American Chemical Society, 2024, 146(38), 26024–26033
Citations: 0
8. 🧱 A sub-10 μm Ion Conducting Membrane with an Ultralow Area Resistance for a High-Power Density Vanadium Flow Battery
Authors: Shi, M., Lu, W., Li, X.
Journal: ACS Applied Energy Materials, 2024, 7(18), 7576–7583
Citations: 5
9. 🔧 SEI/dead Li-turning capacity loss for high-performance anode-free solid-state lithium batteries
Authors: Yin, Q., Li, T., Zhang, H., Yang, X., Li, X.
Journal: Journal of Energy Chemistry, 2024, 96, 145–152
Citations: 1
10. 🧩 Carbon Nanotube Network Induces Porous Deposited MnO2 for High-Areal Capacity Zn/Mn Batteries
Authors: Liu, Y., Xie, C., Li, X.
Journal: Small, 2024, 20(35), 2402026
Citations: 2
Conclusion
Prof. Xianfeng Li exemplifies the qualities sought in candidates for the Research for Young Scientist Award. His pioneering work, prolific publication record, and prestigious accolades demonstrate his readiness to receive this honor. With minor enhancements in global collaborations and industry engagement, his career trajectory is poised to achieve even greater scientific breakthroughs.