2016.11.09澳大利亚莫纳什大学Prof. Dan Li

来源：null   发布时间： 2016-11-08  

无机功能材料组邀请学术报告
Graphene-Based Soft Materials
报 告 人：Prof. Dan Li (澳大利亚莫纳什大学)
报告时间：2016年11月9日（星期三） 10:00-12:00
报告地点：生化科研楼104会议室
主 办：无机功能材料课题组
报告人简介：
Prof. Dan Li received his PhD degree in Materials Physics and Chemistry from University of Electronic Science and Technology of China in 1999. After several years as a Research Fellow at Nanjing University of Science and Technology, University of Washington, University of California Los Angles, and University of Wollongong, he joined Monash University as an associate professor in 2008 and was promoted to full professor in 2012. He received the ARC Queen Elizabeth II Fellowship in 2006, the Scopus Young Researcher of the Year Award (Engineering and Technology) in 2010, ARC Future Fellowship in 2011, Dean’s Award for Excellence in Research in 2012. He was named in the list of Thomson Reuters’ Highly Cited Researchers in the category of Materials Science in 2014-15. His current research interests are centred on synthesis and properties of graphene-based soft materials and their applications in energy storage and conversion, nanocomposites, molecular separation, sensing and nanoionics.
报告简介：
The performance of graphene-based bulk materials is dependent not only on the structure and properties of individual sheets, but also on the intersheet interactions and their hierarchical texture or its supramolecular structure. Our group has been studying the supramolecular chemistry of chemically converted graphene and how non-covalent interactions can be utilized to create carbon-based functional soft materials that are difficult to obtain with other techniques. Learning from nature, we have demonstrated that hydration of graphene not only enables its solution processability, but more importantly, offers simple and scalable ways to assemble graphene into well-controlled nano-architectures with extraordinary macroscopic properties. Highlighting the key role of supramolecular chemistry in the formation of several unusual graphene-based functional materials, this talk will share my personal view on some future directions of graphene-based soft materials, particularly on its implications on nanoionics.