講座題目：金屬離子電池的先進電極材料 Advanced Electrode Materials for Metal-ion Batteries

報 告 人🦐🏋🏻‍♂️：Zaiping Guo

時 　 間🏪：2019年11月12日(周二)10:00-12:00

地 　 點🤌🏽：中關村校區研究生教學樓207室

主辦單位：意昂平台、材料學院

報名方式：登錄意昂官网微信企業號---第二課堂---課程報名中選擇“【百家大講堂】第280期：金屬離子電池的先進電極材料”

【主講人簡介】

Prof. Zaiping Guo received a PhD in Materials Engineering from the University of Wollongong in December 2003. She is a Distinguished Professor in the school of Mechanical, Materials, and Mechatronic Engineering, University of Wollongong, and an Associate Editor of ACS Applied Materials & Interfaces. She received the ARC Queen Elizabeth II Fellowship in 2010, and the ARC Future Fellowship (FT3) in 2015. Her research focuses on the design and application of nanomaterials for energy storage and conversion, including rechargeable batteries, hydrogen storage, and fuel cells. She published more than 400 papers in peer-reviewed Journals, more than 150 papers were published in journals with IF > 10, and these publications have been cited >21,000 times with an h-index of 78. 

【講座信息】

Energy storage is an important problem to realize low carbon society and there have been many challenges. Metal-ion batteries have attracted remarkable attention recently due to the high energy storage demands.  The requirement of feasible electrode materials with high capacity and good cycling stability has promoted the exploration of various electrode materials for metal ion batteries. Materials engineering plays a key role in the field of battery research. In particular, engineering materials at the nanoscale offers unique properties resulting in high performance electrodes in various energy storage devices. Consequently, considerable efforts have been made in recent years to fulfil the future requirements of electrochemical energy storage devices. Various multi-functional hybrid nanostructured materials are currently being studied to improve energy and power densities of next generation batteries.  In this talk, I will present some of our recent progress in the synthesis of different types of hybrid nanostructures to enhance the electrochemical energy storage properties of metal-ion battery.