讲座报告

11月20日14:00 Yuri M Lvov:Nanoarchitectural strategy for clay nanotube self-assembly and core-shell metal mesocatalysts

讲座编号:jz-yjsb-2018-y064

讲座题目:Nanoarchitectural strategy for clay nanotube self-assembly and core-shell metal mesocatalysts

          (粘土纳米管自组装及核壳金属催化剂纳米结构的构筑)

主 讲 人:Yuri M Lvov 教授 美国路易斯安纳理工大学

讲座时间:20181120日(星期二)下午14:00

讲座地点:阜成路东校区耕耘楼9-405

参加对象:材机学院全体师生

主办单位:研究生院

承办单位:材料与机械工程学院

主讲人简介:

Dr. Yuri Lvov is a Professor of Chemistry, Tolbert Pipes Eminent Endowed Chair on Micro and Nanosystems and Associate Director of the Institute for Micromanufacturing, Louisiana Tech University. His area of specialization is nanotechnology including nanoassembly, bio/nanocomposites, nanoconstruction and clay nanotubes for controlled release. He was among pioneers of the polyelectrolyte layer-by-layer (LbL) assembly, a nanotechnology method which, after his first papers in 1993, followed by many thousands publications by researchers all over the world. He edited 4 books, published 9 book chapters, published more than 250 papers. Lvov’s total citation index is above 26 400 which is an outstanding result, and his h-index is 85. Lvov was awarded with prestigious international Alexander von Humboldt Prize in recognition of lifetime achievements in nano-scale chemistry in 2014, elected as a member of US National Academy of Inventors in 2015.

Yuri Lvov教授为美国路易斯安纳理工大学微纳米学部Tolbert Pipes荣誉主席,微制造研究所副主任。研究领域主要涉及纳米组装、纳米复合材料、生物材料、纳米结构的构筑及缓释纳米管等纳米技术。他是聚电解质LbL自组装的开拓者之一。在他1993年发表第一篇该纳米技术论文之后,世界各地的研究人员发表了数千篇相关论文。他编辑了4本书,编著了9个专著章节,发表了250多篇论文,总引用次数超过26400次,H因子达到852014年,Lvov被授予享有国际声誉的亚历山大·冯·洪堡奖,以表彰其在纳米尺度化学领域的终身成就。2015年,Lvov被选为美国国家发明家学会成员。

主讲内容:

This lecture is on nanoarchitectural strategy for clay nanotube self-assembly and core-shell metal mesocatalysts. A layer-by-layer (LbL) assembly of alternating layers of oppositely charged polyelectrolytes and nanoparticles provides the formation of 5-500 nm thick films with monolayers of various substances growing in a pre-set sequence on any substrates at a growth step of about 1 nm. This technology provides a novel method to fabricate functional nanocomposites.

本讲座主要介绍粘土纳米管自组装及核壳金属催化剂纳米结构的构筑方法。带不同电性的聚电解质和纳米粒子能够以每个步骤1nm左右的效率在任意基体表面按照预设的序列形成单分子层,通过这些单分子层交替层层自组装可制备5~500 nm的复合膜。该技术为制备功能性纳米复合材料提供了一种新方法。

 

来源:研究生院(党委研究生工作部) 发表日期:2018-11-06 阅读次数: