为开拓本科生国际视野,学院持续推进与海外一流高校合作,开展多样化的海外交流项目。今年因受全球疫情影响,海外出行仍然暂缓。为使本科生仍能体验海外全英文课程,开拓国际学术视野,现组织开展南洋理工大学暑期线上课程。
南洋理工大学(Nanyang Technological University,NTU),是新加坡的一所世界著名研究型大学,其在纳米材料、生物材料、功能性陶瓷和高分子材料等许多领域的研究享有世界盛名。2020年综合QS排名世界第11位,材料学科QS排名第3位。
一、申请对象
全体本科生(主要面向2021级本科生)
二、项目时间
8月20日-8月27日
三、项目费用
参照相关规定,顺利完成项目经认定后可获得第四课堂学分,并按照学校和学院政策对本项目全额资助。但无故屡次缺勤或态度不认真的学生将不予资助。
四、学分认定
根据本科生院规定,所有本科生均要取得第四课堂学分,才准予毕业。第四课堂学分认定需在校期间有至少一次出国(境)经历,受疫情影响今年参加本次线上课程亦可继续认定第四课堂学分,且不影响今后出国(境)的机会和资助名额。表现优异者,可优先推荐参加今后院级出国(境)交流项目。
五、报名方式
预报名截止时间:3月30日
点击链接,填写预报名申请表:https://www.wjx.cn/vj/O35Nihs.aspx
六、咨询方式
项老师 xiangtt@zju.edu.cn 电话:87953267 qq:247338758
七、项目信息(以项目启动前后续通知为准)
Introduction to Energy Storage (NTU) 《能源存储导论》
Duration:
16 lecture hours ( 1 lecture hour= 45 minutes)
Learning objective:
The course aims to introduce the concept of energy storage technology through batteries. It would teach students the basic concepts of batteries and challenges in battery development. The course includes supercapacitor and batteries concepts, lithium ion battery technology, essential techniques and technology of batteries/supercapacitors through understanding the underlying kinetics and thermodynamics of electrode processes occurring in various batteries.
Course outline:
Topic | Lecture hours |
1. INTRODUCTION TO ENERGY STORAGE TECHNOLOGIES Basics of energy storage, Types of energy storage, Capacitors vs Ultra capacitors/ supercapactiors, Rechargeable and non-rechargeable batteries, Similarities and differences between supercapacitors and batteries for energy storage, prospects and challenges in energy storage. | 2 |
2. SUPERCAPACITORS AND BATTERIES FOR ENERGY STORAGE Design of supercapacitors, Symmetric/Asymmetric supercapacitors, Charge storage mechanisms, Pseudocapacitance effects, Energetics and kinetics of electrode processes, Ragone plot, Nanomaterials for energy storage, Design and standardization, Selection and applications, Hybrid electrochemical capacitors, Prospects and challenges. | 4 |
3. LITHIUM ION BATTERIES Lithium primary batteries, Rocking chair concept, Intercalation compounds, Role of electrolytes in lithium ion batteries, Transition metal oxides, Advantages/disadvantages of Li-ion batteries over other energy storage technologies, ‘C’ rate, Safety issue in lithium ion cells, Thin film and Polymer batteries, Advances and future of LiON battery technology in mobile applications and Hybrid Electric vehicles (HEV). | 4 |
4. PERFORMANCE METRICS FOR EVALUATING ELECTROCHEMICAL ENERGY STORAGE DEVICES Charge-Discharge characteristics, Self- discharge, Cycling efficiency, Rate capability, Power/energy density, Specific capacity, Factors affecting supercapacitor/ battery performance, Study of electrode/electrolyte interface, Galvanostatic/Potentiostatic studies, Impedance measurements, Voltammetric techniques. | 4 |
5. Case studies, tutorials and exam | 2 |
Professor’s profile:
Qingyu Yan is currently a professor in School of Materials Science and Engineering in Nanyang Technology University. He obtained his BS in Materials Science and Engineering, Nanjing University. He finished his PhD from Materials Science and Engineering Department of State University of New York at Stony Brook. After that, He joined the Materials Science and Engineering Department of Rensselaer Polytechnic Institute as a postdoctoral research associate. He joined School of Materials Science and Engineering of Nanyang Technological University as an assistant professor in early 2008 and became a Professor in 2018.
He is currently the Chair of the Electrochemical Society, Singapore Section. He is a fellow of Royal Society of Chemistry Since 2018. He is a highly cited researcher in Materials Science for 2018 indicated by Thomson Reuters. Yan has published more than 280 papers (with total citation of >19000 and h index of 73) on two research area: (1) thermoelectric materials; (2) electrochemical properties of materials for energy storage or conversion.
