Strategies for materials design, processing and applications
时间:2019年4月2日(星期二),上午10:00
地点:买球官网入口玉泉校区邵科馆212
报告人:窦士学教授
邀请人:姜银珠教授
报告人简介:Shi Xue Dou is a Distingiushed Professor at University of Wollongong. He received his DSc at the University of New South Wales in 1998 and was elected as a Fellow of the Australian Academy of Technological Science and Engineering in 1994. He was awarded the Australian Government’s Centenary Medal for his contribution to materials science and engineering in 2003, multiple Australian Professorial Fellowships from 1993 to 2011. He received award for life achievement from ASTS in 2018. He is named as a highly cited researcher in materials science by Clarivate, Thomson Reuters. His research focusses on energy and electronic materials. He has supervised 95 PhD students, more than 60 postdoctoral and visiting fellows. He is program leader for Auto CRC 2020 on electrification program and the on-going ARENA 2016-2020 on smart sodium storage system program.
Hua Kun Liu is a Distinguished Professor at Institute for Superconducting and Electronic Materials, University of Wollongong, Australia, and a Fellow of Australian Academy of Technological Science and Engineering. She received the UOW Vice-Chancellor’s Award for Research Excellence Senior Researcher in 2013, and won the competitive ARC Australian Professorial Fellowships in 1994, 1999, 2003 and 2006. She received UOW DSc at University of Wollongong in 2017 and the award for life achievement from ASTS in 2018. She has supervised 75 PhD students to completion and 40 postdoctoral and visiting fellows. She is named a highly cited researcher in materials science and chemistry by Thompson Reuters and Google Scholars. Her research is focused on energy storage materials. She is chief investigator for for Auto CRC 2020 on electrification program and the on-going ARENA 2016-2020 on smart sodium storage system program.
报告摘要:Energy storage has become a game changer in entire energy system for integration of renewable energy to power supply system. Significant advances in development of strategies and approaches on novel materials design and processing have been made for energy conversion and storage applications. These include band engineering for alteration of electronic properties; Strain engineering for both electronic strain and structure strain; Additive & subtractive engineering for controlled growth of electrode materials; Compositing; Dimension manipulation; York-shell sphere/Core-shell wire/tube/fabires/ribbons; Hybridisation at materials & device level. Here we will highlight some examples in energy materials area. Among these the interface/surface science and engineering is the most critical element for materials design and processing. There is a huge gap between research outputs and commercial benefits in all our research which must be addressed. Scaling-up all the processes remains as a great challenge to facilitate research industry transformation processes from laboratory to real world application.