名师名家讲堂:Aggregation-Induced Emission (AIE): A Wonderland Full of Exoticism and Excitement
发布时间:2018-05-25 浏览次数:
报告题目:名师名家讲堂:Aggregation-Induced Emission (AIE): A Wonderland Full of Exoticism and Excitement
报 告 人:唐本忠院士
时 间:
2018年5月26日(周六) 下午15:00
地 点:
新化学楼133报告厅
唐本忠院士简介:
1982年 获华南理工大学学士学位
1985年 获日本京都大学硕士学位
1988年 获日本京都大学博士学位
1994年-至今 香港科技大学教授
AIE概念的提出者和AIE研究的引领者,累计发表学术论文1000余篇,引用50000余次,h-指数122,2014-2017年连续入选化学和材料双领域高被引用科学家。
先后获得多项荣誉及奖励:国家自然科学一等奖(2017,第一完成人)、何梁何利科学与技术进步奖(2017)、第27届夸瑞兹密国际科学奖(2014)、美国化学会高分子学术报告奖(2012)、国家自然科学二等奖(2007,第四完成人)、裘槎高级研究成就奖(2007)、中国化学会高分子基础研究王葆仁奖(2007)和爱思唯尔出版社冯新德聚合物奖(2007)等。2009年增选为中国科学院院士,2013年入选英国皇家化学会Fellow。现任香港科技大学张鉴泉理学教授、化学系与生物医学工程系讲座教授,华南理工大学-香港科技大学联合研究院院长。
报告摘要:
Efficient luminescent materials hold great promise for high-tech applications in energy, environment, and healthcare, etc. The light emission of conventional luminophores is often weakened or quenched when the molecules are aggregated, which is notoriously known as aggregation-caused quenching (ACQ). Considering that luminophores are commonly used as solid or aggregate, strong solid-state emitters are highly desirable. In 2001, we discovered a kind of propeller-like molecules that showed opposite luminescence behavior to the ACQ effect: the aggregate formation turned on their light emission, changing them from weak fluorogens into strong emitters. We termed this novel phenomenon as aggregation-induced emission (AIE). Through detailed mechanistic study of the photophysical processes, restriction of intramolecular motion (RIM) was identified as the main cause of the AIE effect. Under the guidance of RIM mechanism, we have developed a great number of AIE luminogens (AIEgens) with emission colors covering the entire visible, even extending to UV and near-IR spectral region. We have also explored the intriguing applications of AIEgens in such areas as optoelectronic devices, chemo/biosensing, and biomedical imaging. In this lecture, I will share the excitement in studying this group of wonder molecular aggregates and in exploring their special applications.