BEGIN:VCALENDAR VERSION:2.0 PRODID:https://murmitoyen.com/events/vanille/udem/ X-WR-TIMEZONE:America/Montreal BEGIN:VEVENT UID:69da2f0ed23a3 DTSTAMP:20260411T072254 DTSTART:20181017T110000 SEQUENCE:0 TRANSP:OPAQUE DTEND:20181017T110000 URL:https://murmitoyen.com/events/vanille/udem/detail/838511-conference-de- cqmf-avec-le-professeur-ben-zhong-tangthe-hong-kong-university-of-science- technology LOCATION:Université de Montréal - Pavillon Roger-Gaudry\, 2900\, chemin d e la Tour\, Montréal\, QC\, Canada\, H3T 1J6 SUMMARY:Conférence de CQMF avec le professeur Ben Zhong Tang_The Hong Kong University of Science & Technology DESCRIPTION:Conférence de chimie_CQMF_ avec le professeur Ben Zhong Tang _The Hong Kong University of Science & Technology  \n  \nTitre: ''Aggre gation-Induced Emission (AIE): Making the World Brighter'' \n  \nEndroit : Pavillon Roger-Gaudry\, salle S-142 \n  \nHeure : 11:00 AM \n  \nHôte : Professeur William skene \n  \nRésumé : \n  \nLight is of vital im portance to the whole universe and all living beings.  The development of luminescent materials has received much attention and has led to life-cha nging technological innovations.  Aggregation-induced emission (AIE) is a unique photophysical phenomenon that is diametrically opposed to the noto rious aggregation-caused quenching (ACQ) effect commonly observed in conve ntional luminophore systems.  We coined the new concept of AIE in 2001.1   The luminogens with AIE attribute (AIEgens) are weakly luminescent or c ompletely non-emissive when they are molecularly dissolved in good solvent s but become highly emissive when they are aggregated in solid state or aq ueous media.2  Through systematic experimental investigations and theoret ical simulations\, we have rationalized that the restriction of intramolec ular motions (RIM) in the aggregates is responsible for the AIE effect.  The AIEgen aggregates show large absorptivity\, efficient luminescence\, s trong photostability\, excellent biocompatibility\, etc.  The AIEgens are practically very useful and have found high-tech applications in a great variety of areas\, such as optoelectronics\, chemosensing\, bioimaging\, m icroenvironment visualization\, pathogen detection\, organelle differentia tion\, long-term cellular tracking and biological process monitoring.3–5 \n  \nSelected references \n  \n[1] Luo\, J.\; Tang\, B. Z.\; et al. Ch em. Commun. 2001\, 1740–1741. \n  \n[2] Hong\, Y.\; Lam\, J. W. Y.\; Ta ng\, B. Z. Chem. Soc. Rev. 2011\, 40\, 5361–5388. \n  \n[3] Mei\, J.\; Tang\, B. Z.\; et al. Adv. Mater. 2014\, 26\, 5429–5479. \n  \n[4] Mei\ , J.\; Tang\, B. Z.\; et al. Chem. Rev. 2015\, 115\, 11718–11940. \n  \ n[5] Qian\, J.\; Tang\, B. Z. Chem 2017\, 3\, 56–91. \n  \nCourriel :   w.skene@umontreal.ca \n  \nNuméro de téléphone : 514-340-5174 \n  \nInformations supplémentaires \n  \nAnnonce PDF de la conférence END:VEVENT BEGIN:VTIMEZONE TZID:America/Montreal X-LIC-LOCATION:America/Montreal END:VTIMEZONE END:VCALENDAR