The Electrochemical Energy Storage Technology Research Center of the Chongqing Institute of Green Intelligent Technology, Chinese Academy of Sciences (CAS) is a distinguished R&D and achievements transformation platform arranged by CAS for the electrochemical energy storage technology in southwest China. We take scientific research results transformation as the core concept and continuously utilizes fundamental researches and their results to solve specific problems aroused by the technological upgrading of specific industries. Therefore, we seek to realize the transformation of advanced scientific achievements into practical products.

Research Direction

Our center focuses on the development of electrochemical energy storage devices with high-power and high-energy and the relevant core materials for engineering applications in related fields. Moreover, the current research directions of the center include supercapacitors, solid-state batteries, high power batteries and flow batteries.

Team

Our team have more than 20 researchers so far. Besides, we have built a R&D and small-scale testing platform over 1000 m2. A pilot test base more than 3,000 s m2 has also been completed and put into use. Furthermore, we have developed a close cooperation with enterprises represented by Chongqing CAS Supercap Technology Co., Ltd.

Representative Research Achievement

1. Al2O3-assisted synthesis of hollow CuCo2S4 nanospheres with rich sulfur vacancies for hybrid supercapacitor

2. Construction of hollow-sphere CuNi2S4 with optimized structure and boosting conductivity for hybrid supercapacitor

3. Zeolitic-imidazolate framework derived Ni–Co layered double hydroxide hollow microspheres with enhanced pseudocapacitive properties for hybrid supercapacitors

4. Tremella-like 2D Nickel–Copper Disulfide with Ultrahigh Capacity and Cyclic Retention for Hybrid Supercapacitors,

5. Piperazine-based two-dimensional covalent organic framework for high performance anodic lithium storage

6. Recent Advances in Transition-Metal-Based Catalytic Material for Room-Temperature Sodium–Sulfur Batteries

7. Molybdenum-Based Catalytic Materials for Li–S Batteries: Strategies, Mechanisms, and Prospects

Contact Us

Mrs. Zhou: zhoujing@cigit.ac.cn