主讲人：Professor Tony D James，University of Bath
主讲人介绍：Tony D James is a professor at the University of Bath and Fellow of the Royal Society of Chemistry where he holds a prestigious Royal Society Wolfson Research Merit Award. (2017-2022). BSc 1986 (University of East Anglia), PhD 1991 (University of Victoria), Postdoctoral Research Fellow 1991-95 (Seiji. Shinkai) and Royal Society Research Fellow from 1995 to 2000 (University of Birmingham). He has been a visiting professor at Tsukuba, Osaka, Kyushu and Sophia Universities, an AMADEus invited professor at the University of Bordeaux and is a guest Professor at East China University of Science and Technology, Xiamen University, Shandong Normal University, Nanjing University, Shaanxi University of Science and Technology, Changzhou University, Zhejiang University, Qufu Normal University and Hai-Tian (Sea-Sky) Scholar at Dalian University of Technology. He was awarded the Daiwa-Adrian Prize (2013), the Inaugural CASE Prize (2015) and MSMLG Czarnik Award (2018). He has over 305 publications, including two books, 9 book chapters and 294 papers in international peer reviewed journals. He is also the named inventor on 25 international patents. He has delivered 241 invited lectures within the UK and internationally. Citation statistics indicate that one of his publications has been cited over 700 times, two over 500, five over 300, seventeen over 200 times, thirty-three over 100, and 82 over 50, with a total of >15,388 citations at a frequency of >50 citations per article. He has an h-index of 65 (November 2019 ORCID 0000-0002-4095-2191).
内容介绍：The ability to monitor analytes within physiological, environmental and industrial scenarios is of prime importance. Given that recognition events occur on a molecular level, gathering and processing the information poses a fundamental challenge. Therefore, robust chemical molecular sensors “chemosensors” with the capacity to detect chosen molecules selectively and signal this presence continue to attract considerable attention. This presentation will concentrate on fluorescent probes developed using boronic acids for diols, anions and reactive oxygen/nitrogen species (ROS/RNS). The aim of the research is to mimic nature’s level of sophistication in designing and producing chemosensors capable of determining the concentration (and location) of a target species including: saccharides, glycated proteins, anions and reactive oxygen/nitrogen species (ROS/RNS) in any medium.