Molecular Design Principles for Benzoxazine Resins towards Smart, Ultra-high Performance, and Easily Processable Materials: From the Nature to Aerospace.
发布时间:2017-06-01   访问次数:648   作者:

开始时间:201761314

地点:实验十六楼110

报告人:Professor, Dr. Hatsuo Ishida

主办单位:华东理工大学化工学院上海市多相结构材料化学工程重点实验室

报告题目:Molecular Design Principles for Benzoxazine Resins towards Smart, Ultra-high Performance, and Easily Processable Materials: From the Nature to Aerospace.

报告简介:Benzoxazine resin is known to have the highest molecular design flexibility among all the polymers to tailor the desired properties.Despite this unparalleled potential advantage, the molecular design principles are not yet well understood.In this lecture, parameters, such as hydrogen bonding, isomeric structures, substituent effects, and many other factors will be evaluated.Both experimental and theoretical approaches, such as two-dimensional NMR and ab-initio calculation are used to understand the structure-property relationship.Based on these understandings, smart, ultra-high performance and/or easy to process benzoxazine resins are developed.Examples from the use of natural renewable resources to deep space travel applications will be introduced.

Ishida教授简介:Professor Ishida received his Ph.D. degree from Macromolecular Science Department at Case Western Reserve University, Cleveland, Ohio, and has pioneered in the molecular characterization of composite interfaces and the development of new, very versatile polymers called polybenzoxazines.He is Fellow of ACS (PMSE), SAMPE, and SPE. Professor Ishida received the following awards among others: The Global Salute to Polymers Award (The American Chemical Society). The Alexander von Humboldt Award for Senior Scientist, Humboldt Foundation, Germany; Eminent Scientist, RIKEN:Japan; Award for Excellence in Adhesion Research, The Society of Adhesion; The International Research Award, Society of Plastic Engineers (SPE). He has 12 edited and translated books, 40 disclosures and patents, and over 490 papers to his credit.His H-index is 80 with total citation of more than 22,300.Professor Ishida is Editor-in-Chiefof "Composite Interfaces," and Associate Editorof “Polymers and Polymer Composites” as well as “Frontiers: Composite Materials.”He is a member of the editorial board of 12 journals.