周惠久论坛|High-quality nanomaterials: from single quantum dot to their higher-order architectural superstructures
2019-07-24 14:37:08

邀请讲座人:陈鸥 教授

简介:陈鸥教授,美国布朗大学(Brown University)化学系助理教授。陈鸥教授2004年在中国科技大学获得化学学士学位,2010年在美国佛罗里达大学(University of Florida)获得化学博士学位,2010-2014年在美国麻省理工学院(MIT)师从著名的胶体量子点研究学者Prof. Moungi Bawendi从事博士后研究,2015年加入美国布朗大学任教至今,并且陈鸥教授获聘为Nano Research 期刊的Young Star Editor。主要研究功能纳米晶体材料、半导体量子点、钙钛矿纳米材料及其自组装超结构在能源、催化和生物领域的应用。迄今,陈鸥教授以第一作者或通讯作者在Nature, Science, Nature Materials, Nature Nanotechnology, Nature Chemistry, Nature Communications, Nature Biomedical Engineering等国际著名学术期刊上发表论文60余篇,论文总引用4200余次,H因子29。获得Emerging Investigator by Royal Society of Chemistry, Rising Star by Frontier of Chemistry。

【报告】High-quality nanomaterials: from single quantum dot to their higher-order architectural superstructures

时间: 2019年7月29日 上午10:00

地点: 仲英楼 材料学院 第一会议室

摘要:Nanocrystal materials are emerging as an important class of tools that are revolutionizing both fundamental science and technological applications due to their many unique properties. In particular, quantum dot nanocrystals have demonstrated their great potential to be applied in a wide variety of applications as a unique emissive material. In my talk, I will first describe our experimental effort for the synthesis and characterization of a variety of quantum dot nanocrystals from homogenous materials to heterogeneous structures. These dots combine, in one material, all the best performance metrics desired in quantum emissive nanomaterials. In the second part of my talk, I will show how we can use colloidal nanocrystals as building blocks to generate higher-order architectures in assemblies. Several examples will be discussed from simple isotropic systems to complex anisotropic multifunctional materials. Their potential applications for biological and energy applications will be discussed as well.

 

编辑:yxh0503