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8月19日电分析化学系列学术报告预告
  文章来源:长春应用化学研究所 发布时间:2014-08-15 【字号: 小  中  大   

  报告题目:Material-independent catecholamine surface modification and medical adhesives inspired by nature

  报 告 人:Dr. Haeshin Lee

  单    位:Department of Chemistry, Center for Nature-inspired Technology, Korea Advanced Institute of Science and Technology (KAIST)

  报告时间:2014年8月19日(星期二)上午09:00

  报告地点:海洋之神8590vip长春应用化学研究所 无机分析楼一楼会议室

  附:报告人简介及报告内容摘要

  Professor Haeshin Lee studied at KAIST where he received his B.S. degree in Biological Sciences between in 1996. He received his Ph.D. degree at Biomedical Engineering Department, Northwestern University in 2007. He started his professional carrier from 2008 at Department of Chemistry, KAIST. His research interests have been surface chemistry using catecholamines that have been applied to biomedical adhesives, drug delivery systems, and energy storage devices. He is a currently director of Center for Nature-inspired Technology (CNiT). Some special recognitions and awards are the followings: POSCO Chung-Am award (2011), KAIST Pioneer Award, (2012), NASA inventor award (2008), Top science stories Discover Magazine (2008), Future young scientist award from the Ministry of Education, Science and Technology (2007), Excellence in Teaching Award, KAIST (2010, 2011), and KAIST Award for Excellence in Collaboration (2013).  

   This presentation will discuss the emerging surface chemistry utilizing catechol and catecholamine.The catechol/catecholamine compounds have exhibited material-independent surface modification [1]. Utilizing this unprecedented property, we have developed various material-independent surface functionalization strategies such as hydroxyapatite formation [2], mammalian cell adhesion [3], superhydrophobic surface preparation [4-5], and nitric oxide storage [6], In this presentation, a new concept called micro-omnifluidic systems inspired by the mussel-inspired catecholamine adhesives, the silicification process inspired by diatom, and the lubrication properties from pitcher plant. The micro-omnifluidic system is able to be operated in organic solvents which are incompatible with poly(dimethyl siloxane) (PDMS). Furthermore, the micro-omnifluidic system utilizes gravitational force so that no syringe pumps are required for operation. Finally, this fluidic system is adsorption free increasing reusability of the device. [1] H. Lee et al. Science 2007, 318, 426-430 [2] J. Ryu et al. Adv. Funct. Mater. 2010, 20, 2132-39 [3] S. H. Ku et al. Biomaterials 2010, 31, 2535-41 [4] S. M. Kang et al. Angew. Chemie. Int. Ed. 2010, 49, 9401-04 [5] I. You et al. RSC Advances 2013 online published [6] S. Hong et al. Angew. Chemie. Int. Ed. 2013, 52, 9187-90. 

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