Chemically modified polysaccharides on molecular and supermolecular level as platforms for functional materials
发布人: 星禧   发布时间: 2018-11-14    浏览次数:

报告人简介:

Prof. Dr. Kai Zhang is the Principal Investigator and Head of the Department Wood Technology and Wood Chemistry in Georg-August-University of Goettingen, Germany. He received B.Eng. (2002) from Hefei University of Technology, China, Diploma (2007) and Ph.D. (2011) in Chemistry in Dresden University of Technology, Germany. After further research stations as PostDoc in Dresden University of Technology and the Pennsylvania State University, and as Research Group Leader in Darmstadt University of Technology, he joined University of Goettingen in May 2015. He serves currently as Associate Editor of the journal ‘Hydrogels’ and editorial board member of ‘Scientific Reports’ and ‘Journal of Semiconductors’. He has been appointed as Assistant Professor in Chalmers University of Technology, Sweden, and Junior-Professor in Freie Universität Berlin, Germany. He was awarded with 2015 GCCCD Excellent PhD Supervisor Award and one of 10 Leading Chinese Talents on Science and Technology in Europe 2016. His research focuses on the chemistry of biopolymers, native nanostructures and functional materials from sustainable biomaterials. He has published more than 50 papers in diverse top-tier journals including Advanced Materials, Angewandte Chemie Int Ed, Advanced Functional Materials, Journal of Materials Chemistry A, etc.

报告摘要:

Sustainable biomaterials represent the most abundant raw materials on earth. A vast group of them is polysaccharides, which include cellulose, chitin and starch. Rather than monosaccharides, polysaccharides and their supermolecular structures provide readily applicable platforms for functional nanomaterials. Herein, novel functional nanomaterials derived from diverse sustainable biomaterials with smart and stimuli-responsive properties will be presented. Chemical modifications demonstrate great tools for the functionalization, which leads to specific materials with particular material performance after further physical treatments. In addition, novel physicochemical properties of these polysaccharides will be discussed based on these functional materials.

 
 
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