[1] Rui Wang, Mingsheng Hao, Chao He, Zhengjun Tu, Fazheng Chong, Yinshi Li*. Gradient-distributed NiCo2O4 nanorod electrode for redox flow batteries: Establishing the ordered reaction interface to meet the anisotropic mass transport. Applied Catalysis B: Environmental 332 (2023) 122773. (IF: 24.319)
[2] Jinbo Che, Fengnian Wang, Chao Song, Rui Wang*, Yinshi Li*. Modeling of energy carrier in solar-driven calcium-looping for thermochemical energy storage: Heat-mass transfer, chemical reaction and stress response. Chemical Engineering Journal 463 (2023) 142435. (IF: 16.744)
[3] Rui Wang, Chao He, Mingsheng Hao, Fazheng Chong, Zhengjun Tu, Zhilong Zhao, Xianhua Wu, Yinshi Li*. A particle-bonded catalyst-modified electrode for flow batteries: Extending a two-phase interface toward stable mass transport and efficient redox reaction. ACS Sustainable Chemistry & Engineering 11 (2023) 5953–5962. (IF: 9.224)
[4] Rui Wang, Yinshi Li*, Haiying Liu, Ya-Ling He*, Mingsheng Hao. Sandwich-like multi-scale hierarchical porous carbon with a highly hydroxylated surface for flow batteries. Journal of Materials Chemistry A 9 (2021) 2345-2356. (IF: 14.511)
[5] Rui Wang, Yinshi Li*. Carbon electrodes improving electrochemical activity and enhancing mass and charge transports in aqueous flow battery: status and perspective. Energy Storage Materials 31 (2020) 230-251. (IF: 20.831)
[6] Rui Wang, Yinshi Li*. Yanning Wang, Zhou Fang. Phosphorus-doped graphite felt allowing stabilized electrochemical interface and hierarchical pore structure for redox flow battery. Applied Energy 261 (2020) 114369. (IF: 11.446, ESI Highly Cited Articles)
[7] Rui Wang, Yinshi Li*, Ya-Ling He. Achieving gradient-pore-oriented graphite felt for vanadium redox flow batteries: Meeting improved electrochemical activity and enhanced mass transport from nano- to micro-scale. Journal of Materials Chemistry A 7 (2019) 10962-10970. (IF: 14.511, Front Cover, ESI Highly Cited Articles, Most Popular Articles of JMCA, Most Cited Articles of JMCA)
[8] Rui Wang, Yinshi Li*. Twin-cocoon-derived self-standing nitrogen-oxygen-rich monolithic carbon material as the cost-effective electrode for redox flow batteries. Journal of Power Sources 421 (2019) 139-146. (IF: 9.794)
