【材料科学与工程学院】Rational Design of Structural Materials for Patchable Sensors
发布时间: 2017-06-29 浏览次数: 13 文章来源: 科技处

报告题目:Rational Design of Structural Materials for Patchable Sensors

报告人:陈晓东教授,新加坡南洋理工大学

时间:2017-7-2   10:00

地点:教五413大会议室

主办单位:材料院

报告人简介:
      Dr. Xiaodong Chen is Professor of Materials Science and Engineering, Professor of Physics and Applied Physics (by courtesy) at Nanyang Technological University (Singapore). He is the Associate Chair (Faculty) in the School of Materials Science and Engineering, and founding Director of Innovative Centre for Flexible Devices (iFLEX) at NTU. He received his B.S. degree (Honors) in chemistry from Fuzhou University (China) in 1999, M.S. degree (Honors) in physical chemistry from the Chinese Academy of Sciences in 2002, and Ph.D. degree (Summa Cum Laude) in biochemistry from University of Muenster (Germany) in 2006. After his postdoctoral fellow working at Northwestern University (USA), he started his independent research career as Nanyang Assistant Professor at Nanyang Technological University since 2009. He was promoted to Associate Professor with tenure in Sept 2013, then Full Professor in Sept 2016. His research interests include interactive materials and devices, integrated nano-bio interface and programmable materials for energy conversion. So far, He has published over 200 scientific articles, including inNature Nanotech,Nature Chemistry,Nature Communications,JACS,Angew Chem, andAdv Mater, and has given more than 120 invited talks/seminars. Currently, he is the Associate Editor ofNanoscaleand Scientific Editor ofNanoscale Horizons. In addition, he is the
member of editorial advisory board ofAdvanced Materials, Small Methods, Advanced Materials Technology, Scientific Reports,andJournal of Laboratory Automation.He was conferred as the Fellow of Royal Society of Chemistry in 2016. Hewas awarded more than ten prestigious awards and fellowships including the precious Singapore NRF Investigatorship,SmallYoung Innovator Award, Singapore NRF Fellowship, Nanyang Research Award, andLubrizol Young Materials Science Investigator Award.


  

报告摘要:

    Wearable smart devices not only enrich daily lives by providing enhanced smart functions, but also provide health information by monitoring body conditions. For example, patchable sensors, have the potential to better interface with human skin, thus improving the sensitivity of detection of health indicators. However, the crucial aspects toward the advancement of such sensors include the development of novel mechanically durable materials, flexible and stretchable substrates, deformable electrodes and circuits, bio-stable and bio-compatible, and so on. In this talk, I will present our latest progress fabricating patchable sensors based on the rational design of structural materials, individual devices development, and integration.