受国家外专局专项引智项目资助,应化工与化学学院戴长松教授邀请,俄罗斯圣彼得堡国立大学化学系副教授、化学电源领域科学家Oleg V. Levin博士将于2019年10月18-26日赴我校进行学术交流和访问,访问期间将进行锂离子电池、有机电池、阻抗技术、电池参数和调查技术方面的学术讲座,并开展学术交流研讨会,欢迎全校师生参加。
讲座安排:
报告(一)
题目:Li-ion Batteries: Basics, History and Future
主要内容:primary lithium batteries, Li-ion accumulators, safety issues, future materials
时间:10月18日(星期五)下午3:30-5:00
地点:明德楼C1320
报告(二)
题目:Battery Parameters and investigation Techniques
主要内容:battery parameters, reaction kinetics, voltammetry, galvanostatic methods
时间:10月19日(星期六)上午9:30-11:00
地点:明德楼C1320
报告(三)
题目:Impedance techniques
主要内容:impedance, equivalent circuits, interpretation of the impedance results using models, proper choice of the experiment, choice of equivalent circuit, Kramer-Kronig Rule, Electrical Artifacts
时间:10月21日(星期一)上午10:00-11:30
地点:明德楼C1320
报告(四)
题目:Organic batteries
主要内容:all-organic batteries, p- and n- type configurations, non-aqueous batteries, aqueous batteries
时间:10月22日(星期二)上午10:00-11:30
地点:明德楼C1320
研讨会(一)
主题:Fundamental equations of electrochemical kinetics
主要内容: Equivalent Circuit Models, Transport fenomena, Reaction Kinetics
时间:10月23日(星期三)上午9:00-10:00
地点:明德楼C1320
研讨会(二)
主题:DC methods
主要内容:theory and application of DC methods: Cyclic voltametry, Galvanostatic charge-discharge, GITT, PITT
时间:10月24日(星期四)上午9:00-10:00
地点:明德楼C1320
研讨会(三)
主题:AC methods
主要内容:Electrochemical Impedance spectroscopy, data and interpretation
时间:10月25日(星期五)上午9:00-10:00
地点:明德楼C1320
Oleg V. Levin副教授简介:
Ass. Prof. O. Levin is an associate professor of chemistry at the St.-Petersburg State University, St.-Petersburg, Russia and a scientist in the field of chemical power. He was awarded a doctorate in chemical science from St. Petersburg State University in 2017. Dr. O. Levin has written numerous papers. His research interests are connected with electrochemical power sources and polymeric metal complexes. And he became a permanent member of the department in 2010 after his work as a researcher in Li-ion Battery Department of Samsung SDI Company, South Korea. Then he came to the St. Petersburg State University to lecture on Electrochemistry for bachelor students and Electrode materials for lithium-ion batteries for master students, conducts laboratory works with students mastered the course of Electrochemistry, and supervises the students’ graduation projects. The projects carried out in his group are devoted to studies of cathode materials of a new type based on organic and metalorganic compounds. The aim of the research is to create cathode organic material based on π-conjugated polymers modified by functional groups with potentially high capacitance. The fundamental significance of such research is determined with elucidation of charge transfer mechanisms within the films possessing a mixed redox and conjugated conductivity.
