摘要
基于第262期"双清论坛",本文围绕超越传统体系电化学能源的重大需求、科学基础和发展途径,总结了新型电化学能源领域的关键科学问题,提出了以典型电化学能源化学体系为抓手,构筑从电荷转移到电极材料,再到器件系统的全链条电化学能源理论,建议了未来5~10年的重要研究方向。超越传统体系的电化学能源研究将推动当代化学基础理论创新和物质科学研究范式变革,助力原创化学思想转化成实用工程技术,实现我国电化学能源科技自立自强。
The 262 nd Shuangqing Forum titled"Beyond Traditional Electrochemical Energy Technologies"focused on the major national needs,scientific foundation and technological development of electrochemical energy.Based on the conclusions drawn from the Forum,this work summarizes the key scientific issues in the field of new electrochemical energy research and emphasizes the importance of the development of novel electrochemical energy materials and systems,as well as new methods that study the electrochemical systems and theories behind the applications of energy storage and conversion.Important research directions pertinent in the next 5-10 years are suggested.A theme-based research on the formation of fundamental theories in electrochemistry and the paradigm shift in materials research is proposed to promote and transform scientific ideas into technological innovations to ultimately propel China to the forefront of electrochemical energy research.
作者
程俊
张强
程方益
梁振兴
赵天寿
陈军
孙世刚
孟庆峰
张国俊
Cheng Jun;Zhang Qiang;Cheng Fangyi;Liang Zhenxing;Zhao Tianshou;Chen Jun;Sun Shigang;Meng Qingfeng;Zhang Guojun(College of Chemistry and Chemical Engineering,Xiamen University,Xiamen 361005;Department of Chemical Engineering,Tsinghua University,Beijing 100084;College of Chemistry,Nankai University,Tianjin 300071;School of Chemistry and Chemical Engineering,South China University of Technology,Guangzhou 510641;Department of Mechanical and Aerospace Engineering,Hong Kong University of Science and Technology,Hong Kong 999077;Bureau of Policy,National Natural Science Foundation of China,Beijing 100085;Department of Chemical Sciences,National Natural Science Foundation of China,Beijing 100085)
出处
《中国科学基金》
CSSCI
CSCD
北大核心
2021年第3期435-439,共5页
Bulletin of National Natural Science Foundation of China
关键词
电化学能源
基础理论创新与研究范式变革
新材料
新体系
多学科交叉
碳中和
electrochemical energy
fundamental theories and new paradigms
novel materials
new systems
multidisciplinary collaboration
carbon neutral
