Yuefeng Su

Su Yuefeng, male, Doctor of Engineering, Distinguished professor, doctoral supervisor, undergraduate professor of new energy Materials and Devices, School of Materials, Beijing Institute of Technology. He was selected as the national high-level leading talents and the New century outstanding talents of the Ministry of Education, and served as the executive director of the IEEE PES Energy Storage Technology Committee (China) Energy Storage Materials and Devices Sub-Committee. He is mainly engaged in the research of green secondary batteries and advanced energy materials, and focuses on new cathode materials for lithium-ion batteries and high energy density intelligent batteries. In recent years, he has presided over a number of National Natural Science Foundation projects, national key research and development projects and Panasonic international cooperation projects. As the first author or corresponding author, he has published more than 100 SCI papers in Adv Mater, Angew Chem Int Ed and other journals, cited more than 8,000 times, and authorized more than 50 national invention patents as the first and second inventors. He won the second prize of China Nonferrous Metal Industry Science and Technology Award (Invention) and the first prize of China Invention Association "Invention Innovation Award". He edited one textbook and published four academic monographs. It mainly teaches the core professional courses "Energy Storage Materials and Technology" for undergraduates, and the professional courses "Engineering Materials Technology Frontier" and "Materials Science" for doctoral students.

Green secondary batteries and Advanced Energy Materials

(1) 1995.9-1999.7, Beijing Institute of Technology, Chemical Technology and Chemical Engineering, Bachelor of Engineering;
(2) 2001.3-2005.3, Beijing Institute of Technology, PhD in Environmental Engineering;

(1) 1999.7-2001.8, Assistant Professor, School of Chemical Engineering and Materials, Beijing Institute of Technology;
(2) 2005.3-2011.7, Lecturer, School of Chemical Engineering and Environment, Beijing Institute of Technology;
(3) 2011.7-2015.7, Associate Professor, School of Chemical Engineering and Environment, Beijing Institute of Technology;
(4) 2015.7- Now, Professor, School of Materials, Beijing Institute of Technology;

1) Feng Wu#, Shuangyi Zhao#, Lai Chen, Yun Lu*, Yuefeng Su*, Yingna Jia, Liying Bao, Jing Wang, Shi Chen, Renjie Chen. Metal-organic frameworks composites threaded on the CNT knitted separator for suppressing the shuttle effect of lithium sulfur batteries. Energy Storage Materials. 2018, 14, 383-391.
2) Feng Wu#, Na Liu#, Lai Chen*, Yuefeng Su*, Guoqiang Tan, Liying Bao, Qiyu Zhang, Yun Lu, Jing Wang, Shi Chen, Jing Tan. Improving the reversibility of the H2-H3 phase transitions for layered Ni-rich oxide cathode towards retarded structural transition and enhanced cycle stability. Nano Energy. 2019, 59, 50-57. （ESI 高被引）
3) Feng Wu, Weikang Li, Lai Chen*, Yuefeng Su*, Liying Bao, Wurigumula Bao, Zeliang Yang, Jing Wang, Yun Lu, Shi Chen. Renovating the electrode-electrolyte interphase for layered lithium- &manganese-rich oxides. Energy Storage Materials. 2020, 28: 383-392.
4) Feng Wu, Na Liu, Lai Chen*, Ning Li, Jinyang Dong, Yun Lu, Guoqiang Tan, Mingzhe Xu，Duanyun Cao, Yafei Liu, Yanbin Chen, Yuefeng Su*. The nature of irreversible phase transformation propagation in nickel nickelrich layered cathode for lithium-ion batteries. Journal of Energy Chemistry. 2021, 62: 351-358.
5) Feng Wu, Jinyang Dong, Lai Chen*, Liying Bao, Ning Li, Duanyun Cao, Yun Lu，Ruixue Xue, Na Liu, Lei Wei, Zirun Wang, Shi Chen, Yuefeng Su*. High-voltage and high-safety nickel-rich layered cathode enabled by a self-reconstructive cathode/electrolyte interphase layer. Energy Storage Materials. 2021, 41: 495–504.