报告人:Sean Li 教授
School of Materials Science and Engineering, The University of New South Wales, Sydney, Australia
邀请人:韩圣浩教授
报告时间:9月26日上午10点 (周三)
报告地点:知新楼C702 量子报告厅
摘要:
The demand for higher performance and lower power consumption in electronic systems is the main driving force for the creation of new materials for devices in nanometre scale. The success of these new materials is dependent on significant enhancement in carrier mobility and conductivity. In this work, we spatially separate the electron generation layer from the conduction layer by engineering the atomically sharp complex oxide heterointerfaces to enhance the electron mobility and density individually. It aims to develop a novel material with ultrahigh electron mobility and conductivity that are orders of magnitude above today’s state- of-the-art materials at room temperature to enable next generation nanoelectronics.
报告人简介:
Sean Li教授是新南威尔士大学材料与制造“未来研究院”的院长。该研究院由新南威尔士大学的20多位著名教授和学者组成。该研究院旨在改变材料和制造研究的未来方向,涉及从原子排列的控制,到器件制造,再到大规模高产量工业制造,并解决能源,运输,信息技术和医疗保健领域的复杂问题。研究院配备了许多独特的世界级研究设备。这些设备是专门为先进材料和制造技术的研发量身定做的,是新南威尔士大学的重要研究基础设施之一,其总价值超过1500万澳元。在基础研究方面,李教授的兴趣主要集中在多功能复杂氧化物和异质结构的独特物理性能上。他还正在主持多个总投资额2300万澳元的材料制造工业合作项目。李教授已经发表了3本学术书籍,1本编著书籍,16篇书籍章节和338篇国际期刊论文。
Professor Sean Li is the director of UNSW Materials and Manufacturing Futures Institute, which consists of more than 20 leading professors and academics at UNSW. The futures institute aims to transform the future of materials and manufacturing research from manipulation of atomic arrangements to device fabrication and high throughput industry scale manufacturing and solve complex problems in energy, transport, information technology, and healthcare. It is equipped with a number of unique and world-class research facilities, which is specially designed and fully geared towards the development of advanced materials and manufacturing technologies with a total value of more than AUD$15 million. It is one of the key research infrastructures at UNSW. Professor Li’s fundamental research interests mainly focus on multifunctional complex oxides and exotic physical properties of their heterostructures. He is also implementing several materials manufacturing projects with the funding of AUD$23 million from industry. Professor Li has published 3 scholarly books, 1 edited book, 16 book chapters and more than 338 scientific articles in international peer-reviewed journals.
