City University of Hong Kong
School of Energy and Environment
Ability R&D Energy Research Centre (AERC)
Seminar
Modelling and Understanding of the Cycling Bbehaviors of Silicon-based Lithium-ion Batteries
By
Dr. Huizhi Wang
Associate Professor
Faculty of Engineering, Department of Mechanical Engineering,
Imperial College London
Abstract
Lithium-ion batteries (LIBs) are currently the dominant energy storage technology for consumer electronics, and they are expanding their applications to automobiles and stationary storage. The rapid expansion in LIB applications requires continuous improvements in energy density, power density, lifespan and safety, which has spurred research into novel LIB chemistries and even “beyond lithium” chemistries. One next-generation LIB solution that has been attracting considerable attention is to use silicon materials as the anode. In contrast to the intercalation carbonaceous materials, silicon is an alloying electrode material and thus can provide a theoretical capacity ten times higher than that of graphite. Silicon has unique electrochemical behaviors with a huge voltage hysteresis between the charge and discharge voltage curves. In this talk, we will first present a mechanistic study to reveal the origin of the path-dependent voltage hysteresis of silicon at different lithiation depth. We will next discuss the role of silicon in a silicon/graphite composite electrode using a multi-material electrochemical model. A dimensionless factor will be introduced to indicate the active regions of silicon and graphite materials and we will demonstrate how it can be used to design cycling protocols for mitigating degradation of silicon/graphite electrodes.
About the Speaker
Dr Huizhi Wang is a Senior Lecturer (Associate Professor) in the Department of Mechanical Engineering at Imperial College London, United Kingdom. She received her Ph.D. degree in Mechanical Engineering from the University of Hong Kong. Prior to joining Imperial College London, she was an Assistant Professor in the School of Engineering and Physical Sciences at Heriot-Watt University, Edinburgh. Her research centers on electrochemical engineering with activities including design, manufacturing, characterization, and modeling of electrochemical energy devices such as fuel cells, batteries and electrolysers. She has (co)authored over 100 articles in peer reviewed journals and several book chapters and patents.
| Date: | 12 April 2023 (Wednesday) |
| Time: | 15:00- 16:00 |
| Venue: | LT-17, Yeung Kin Man Academic Building, City University of Hong Kong Tat Chee Avenue, Kowloon Tong |
Enquiry: Please contact Miss Winnie Lo via e-mail: winnie.aerc@cityu.edu.hk or tel: 3442 9693.
~All are Welcome~