新闻与活动 活动信息

Westlake Science Forum | Zhongqun Tian: Exploring the Characterization of Working Conditions and AI Driving in Electrochemical Energy Systems

时间

2024年5月10日(周五)
上午10:30-12:00

地点

西湖大学云谷校区E10-211

主持

Prof. Licheng Sun, Chair Professor of School of Science & Director of CAP, Westlake University

受众

全体师生

分类

学术与研究

Westlake Science Forum | Zhongqun Tian: Exploring the Characterization of Working Conditions and AI Driving in Electrochemical Energy Systems

时间2024510日(周五)上午10:30-12:00

Time10:30-12:00, Friday, May 10th, 2024

主持人: 西湖大学理学院/人工光合作用与太阳能燃料中心主任 孙立成教授

Host: Prof. Licheng Sun, Chair Professor of School of Science & Director of CAP, Westlake University

地址:西湖大学云谷校区E10-211

Venue: Room E10-211, Yungu Campus, Westlake University


田中群 院士

厦门大学化学化工学院,福建省厦门市思明区思明南路422

Prof. Zhongqun Tian

College of Chemistry and Chemical Engineering, Xiamen University, 422 Siming South Road, Siming District, Xiamen City, Fujian Province, China

E-mail: zqtian@xmu.edu.cn


主讲人/Speaker

田中群,厦门大学化学系教授,中国科学院院士。1982年获厦门大学化学学士学位,1987年获英国南安普敦大学化学博士学位,即回厦门大学工作至今。1996年获国家自然科学基金委杰出青年基金和2001年获创新群体基金。2003-2011年担任固体表面物理化学国家重点实验室主任。2005年当选为中国科学院院士和英国皇家化学会会士,2019-2020年任国际电化学会(ISE)主席。主要从事表面增强拉曼光谱、谱学电化学、等离激元化学和分子催组装等方面的研究,以第一完成人获中国、英国、法国、日本、美国和国际电化学会奖项。现任教育部2011计划能源材料化学协同创新中心主任、福建省能源材料科学技术创新实验室(嘉庚实验室)名誉主任、中国科学院学术委员会委员、国家基金委化学部咨询委员会委员、Chem. Soc. Rev.和《中国科学-化学》副主编以及JACS等十六个国际刊物的顾问编委。

Prof. Zhongqun Tian, from the Department of Chemistry at Xiamen University, is an academician of the Chinese Academy of Sciences. He received his bachelor's degree in chemistry from Xiamen University in 1982, and received his doctoral degree in chemistry from the University of Southampton in 1987. Prof. Tian won the National Natural Science Foundation of China Outstanding Youth Fund and the Innovation Group Fund in 2001. From 2003 to 2011, he served as the director of the National Key Laboratory of Solid Surface Physical Chemistry. In 2005, he was elected as an academician of the Chinese Academy of Sciences and the British Royal Chemical Society. He served as the chairman of the International Electrochemical Society (ISE) from 2019-2020. He is engaged in research on the surface enhancement of Raman spectroscopy, spectrum electrochemistry, plasmonic chemistry and molecular catalytic assembly. He has won awards from China, the United Kingdom, France, Japan, the United States and the International Electrochemical Society for his pioneering research. Currently, he serves as the director of the Collaborative Innovation Center of Chemistry for Energy Materials, the honorary director of the Fujian Provincial Materials Science and Technology Innovation Laboratory (Jiageng Lab), a member of the Academic Committee of the Chinese Academy of Sciences and a member of the Consultation Committee of the Ministry of Chemistry, the Deputy Editor-in-Chief of Chem. Soc. Rev. and Chinese Science-Chemistry, and the consultant editorial board of 16 international publications.


讲座摘要/Abstract:

电化学科学与技术在新能源等领域扮演着日益重要的角色且面临巨大挑战,传统的原位和非原位仪器表征方法难以满足新型电化学能源器件的需求。本报告将展望面向新型电化学能源器件/系统的新一代工况表征实验和理论方法,强调能源器件工况表征技术与人工智能技术优势互补,实现器件在工况下的检测-解析-控制的全闭环模式,不仅可优化系统和获取大量数据,而且有望指导生成全新的电化学能源器件,发展为未来研究范式,为发展能源电化学、化学测量学和界面科学乃至建立系统电化学等新方向提供新途径。

Electrochemical science and technology are playing an increasingly crucial role in fields such as new energy, yet they face significant challenges. Traditional in-situ and ex-situ characterization methods are inadequate to meet the demands of novel electrochemical energy devices. This report anticipates the emergence of a new generation of experimental and theoretical methods for characterizing novel electrochemical energy devices/systems. It emphasizes the complementary advantages of energy device characterization techniques and artificial intelligence technology, aiming to achieve a closed-loop mode of detection-analysis-control of devices under operating conditions. This approach not only optimizes systems and generates large amounts of data but also has the potential to guide the creation of entirely new electrochemical energy devices, thereby evolving into a future research paradigm. It provides new pathways for the development of energy electrochemistry, chemical metrology, interface science, and even the establishment of systematic electrochemistry, offering new avenues for research in these fields.


讲座联系人/Contact:

理学院,项晓玲,邮箱:xiangxiaoling@westlake.edu.cn

School of Science, Xiaoling Xiang, Email: xiangxiaoling @westlake.edu.cn