Introduction
The Institute of Energy Storage Science and Engineering aims to promote advanced energy storage technology development and application in the areas of electrochemical energy storage, comprehensive utilization of hydrogen energy, and energy storage systems. Research focuses on power batteries, key materials and technologies for hydrogen energy, energy storage system design and management. The institute presently employs 9 full-time teachers, consisting of 2 professor, 3 associate professor, and 4 lecturers. The members have successively undertaken more than 20 funds at national, provincial and ministerial level, as well as national key laboratory funds, and commissioned projects from enterprises. They have published over 200 papers in high-level journals both domestically and abroad. Two teachers have been selected as Jiangsu Double Creation Doctors, and Young academic leaders of Jiangsu University's "Young Key Teachers Training Project". The institute facilitates the transfer of technology and accomplishment transformation while maintaining technical collaboration with Yunxin Energy Storage Technology Co., Ltd., Funeng Technology Co., Ltd., and Lixin Energy Technology Co., Ltd., enabling the advancement of the energy storage sector.
Research field
● High-performance lithium-ion power battery technology
● Optoelectronic materials and solar cells
● Hydrate and chemical hydrogen storage technology
● Hydrogen storage reactor energy and mass transfer
● Carbon dioxide capture and conversion technology
● Catalytic reduction denitrification technology
Representative Research
Over 200 papers have been published in prestigious journals both nationally and internationally, including Nature Communications, Small, Adv. Energy Mater., J. Mater. Chem. A, Chem. Eng. J., J. Energy. Chem., etc. They have also been awarded over 20 patents.
Typical Cases of Applications
National research project
Project of National Natural Science Foundation
● Regulation mechanism of spatio-temporal collaborative energy and mass transfer in solar-powered hydrogen production system by electrolytic water (No. 52376060)
● Mechanism study on SPR coupling effect of stepped heterojunction arrays and its enhancement effect towards carriers transport (No. 51976081)
● Controllable construction of heterojunction structure based on colloidal nanorod array and its interface charge transport mechanism (No. 51406069)
● Design of highly efficient carbon quantum dots based electrocatalysts for sulfur reduction reaction in lithium-sulfur batteries (No. 52202244)
● Control and regulation of laser-induced graphene with gradient functional structure for moisture enabled electric generation(No. 22309066)
● Synergistic effect between oxygen vacancies and dopants of non-metal co-doped Ti-based catalyst for low-temperature SCR of NO. (No. 51506077)
● Development of high-curvature carbon supported Cu-based bimetal single atoms catalysts for CO2 electrocatalysis in acidic medium (No. 22209183)
Main members
 | Fen Qiao
Director
Professor/Ph.D Advisor
Young academic leaders of Jiangsu University;
Deputy General Manager of Science & Technology of Jiangsu Province |
|  | Lei Zhou
Deputy Director
Doctor of Double Innovation Plan
Lecturer/Master Advisor |
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 | Wei Zhao
Associate Professor/ Master Advisor |
|  | Jie Yang
Lecturer/Master Advisor |
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 | Genxiang Wang
Lecturer/Master Advisor |
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