“丝绸之路”能源化工学术论坛系列报告会(三)Nanotechnology Approaches to Biological Heterogeneity and Cellular Therapies

讲座名称: “丝绸之路”能源化工学术论坛系列报告会(三)Nanotechnology Approaches to Biological Heterogeneity and Cellular Therapies
讲座时间 2017-10-23
讲座地点 化工办公楼106会议室
讲座人 Paul S. Weiss
讲座内容

“丝绸之路”能源化工学术论坛系列报告会(三)
“丝绸之路”能源化工学术论坛第三次学术报告会,化工学院邱介山教授邀请到美国加州大学洛杉矶分校,ACS Nano主编Paul S. Weiss教授,他将于10月23日(周一)上午10:00在化工办公楼106会议室做题为《Nanotechnology Approaches to Biological Heterogeneity and Cellular Therapies》的学术报告,同时也会介绍一下ACS Nano杂志,欢迎大家针对学术内容和杂志投稿等进行提问和交流。
报告题目:Nanotechnology Approaches to Biological Heterogeneity and Cellular Therapies
报告时间:2017年10月23日上午10:00
报告地点:化工办公楼106会议室
报告人:Paul S. Weiss教授
 

 

讲座人介绍

Paul S. Weiss holds a UC Presidential Chair and is a distinguished professor of chemistry & biochemistry and of materials science & engineering at UCLA. He received his S.B. and S.M. degrees in chemistry from MIT in 1980 and his Ph.D. in chemistry from the University of California at Berkeley in 1986. He was a postdoctoral member of technical staff at Bell Laboratories from 1986-88 and a visiting scientist at IBM Almaden Research Center from 1988-89. He served as the director of the California NanoSystems Institute and held the Fred Kavli Chair in NanoSystems Sciences at UCLA from 2009-14. Before coming to UCLA, he was a distinguished professor of chemistry and physics at the Pennsylvania State University, where he began his academic career in 1989. His interdisciplinary research group includes chemists, physicists, biologists, materials scientists, mathematicians, electrical and mechanical engineers, computer scientists, clinicians, and physician scientists. They focus on the ultimate limits of miniatu­rization, exploring the atomic-scale chemical, physical, optical, mechanical, and electronic properties of surfaces, interfaces, and supramolecular assemblies. They develop new techniques to expand the applicability and chemical specificity of scanning probe microscopies. They apply these and other tools to study self- and directed assembly, and molecular and nanoscale devices. They advance nanofabrication down to ever smaller scales and greater chemical specificity to operate and to test functional molecular assemblies, and to connect these to the biological and chemical worlds. Two major themes in his laboratory are cooperativity in functional molecules and single-molecule/assembly biological structural and functional measurements. He has written over 300 publications, holds over 30 patents, and has given over 700 invited, plenary, keynote, and named lectures.

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