2016.11.12南洋理工大学楼雄文教授

来源：null   发布时间： 2016-11-09  

无机功能材料组邀请学术报告
Metal-Organic-Framework-Derived Functional Materials for Electrochemical Energy Storage and Conversion
报 告 人：Prof. Xiong Wen (David) Lou (楼雄文)，南洋理工大学
报告时间：2016年11月12日（星期六）14:00-15:00（系列报告，请于13:50入场）
报告地点：过程大厦5多功能厅
主 办：无机功能材料课题组
报告人简介：Dr. David Lou received his B.Eng. (1st class honors) (2002) and M.Eng. (2004) degrees from the National University of Singapore. He obtained his Ph.D. degree in chemical engineering from Cornell University in 2008. Right after graduation, he joined Nanyang Technological University (NTU) as an Assistant Professor. He was promoted to Associate Professor since September 2013, and to Full Professor since September 2015. He has published about 240 papers with a total citation of >30,500 (ISI) or >36,500 (Google scholar), and an h-index of 102 (ISI) and 111 (Google scholar). His main research interest is on designed synthesis of nanostructured materials for energy and environmental applications. In particular, he has strong interest on synthesis of hollow nanostructures for different applications, such as, lithium-ion batteries and supercapacitors. He also explores the applications of novel nanostructured materials for electrocatalysis and photocatalysis. He has received several important awards including the Young Scientist Award 2012 by National Academy of Science of Singapore. He also received the Nanyang Research Award 2012 by Nanyang Technological University. He was listed as a Highly Cited Researcher by Thomson Reuters in 2014 (in Materials Science) and 2015 (in both Materials Science & Chemistry) and 2016 (in Materials Science, Chemistry, & Environment). He is currently an Associate Editor for Journal of Materials Chemistry A.
报告简介：We use metal-organic frameworks (MOFs) as a unique platform to synthesize nanostructured functional materials with both optimized composition and structure. Due to the atomically arranged metal ions and organic ligands, as well as the wide variety of compositions and porous structures, MOFs provide unique precursors for easy preparation of metal-based materials, carbonaceous materials and nanocomposites with high porosity and tunable composition/structure. In this talk, I will briefly discuss some progress we have achieved in this area. Specifically, I will mention some examples of designed synthesis of nanostructured metal oxides, sulfide, nitride, and carbide using MOFs precursors. These MOFs derived nanomaterials exhibit interesting electrochemical properties.