为迎接建校 70 周年华诞,学校组织“攀·学术高峰” 系列学术活动,旨在总结学术成就,活跃学术氛围,彰显学者风采,激发创新热情,奏响学术强校最强音。
报告题目:Polymer-Enhanced Room Temperature Phosphorescence
报告时间:2022年4月8日10:00
报告地点:腾讯会议室(ID:955426526)
报 告 人:赵彦利
个人简介:赵彦利,新加坡南洋理工大学Lee Soo Ying讲席教授,化学系副主任及数理学院助理院长。兼任新加坡科技研究局(A*STAR)材料与工程研究院首席科学家。于南开大学获得本科和理学博士学位,博士导师为刘育教授。随后在美国加州大学洛杉矶分校以及西北大学从事博士后研究,师从2016年诺贝尔化学奖得主Sir Fraser Stoddart教授。现主要从事合成化学和材料科学前沿交叉领域的研究。研究兴趣集中于新型自聚集材料的设计和制备,及其在生物医学、催化和绿色能源等领域的应用开发。共发表SCI论文450余篇,h指数91。先后获得新加坡国家研究基金会Fellowship (2010)、《麻省理工学院技术评论》评选的杰出青年创新人物(新加坡2012)、亚太光化学学会青年科学家奖(2016)、美国化学会ACS Applied Materials & Interfaces青年研究员奖(2017)、新加坡国家研究基金会Investigatorship (2018)、科睿唯安高被引科学家(2018-2021)等荣誉和奖励。担任ACS Applied Nano Materials执行主编。
报告内容:
Long-lived room temperature phosphorescence materials have attracted increasing attention because of their fantastic properties and application potentials. Inspired by the importance of noncovalent interactions such as hydrogen bonding andp-pstacking interactions in supramolecular self-assembly as well as covalent polymerizations, we have prepared functional amorphous systems by integrating suitable chromophore molecules and polymer matrix in order to achieve long-lived room temperature phosphorescence. Through rationally integrating selected chromophores with polymers noncovalently and covalently, the formations of unique interactions and bonding in the resulted systems could effectively minimize the molecular vibrations and promote the intersystem crossing for enhanced room temperature phosphorescence. These systems show promising applications in displays, imaging, data encryption and information storage. In this talk, I will present our recent research progress about the design, synthesis, mechanism study and applications of polymer-enhanced room temperature phosphorescence systems.
上一条:beat365手机中文官方网站70周年校庆系列活动|生物基先进材料与能源化学学术研讨会
下一条: 校庆学术活动之十六——关于西安电子科技大学任泽伟副教授做线上学术报告的通知