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​[세미나: 3월 24일(금), 오전 11시] Prof. Haining Tian, Uppsala University 

Title

Organic Polymer Dots for Photocatalysis

Speaker

Prof. Haining Tian, Uppsala University

Biography

Dr. Haining Tian is a Senior lecturer (Universitetslektor) and Associate Professor (Docent) at Uppsala University, Sweden, leading a research group of Molecular Devices for Artificial Photosynthesis. He obtained his PhD in Applied Chemistry at Dalian University of Technology (DUT) in 2009 under supervision from Prof. Licheng Sun and Prof. Xichuan Yang and then moved to Royal Institute of Technology (KTH) as Postdoc and senior researcher. He was in Prof. Juan Bisquert’s group in Universitat Jaume I as a short-term visiting researcher in 2013. In 2014, he started his independent research career at Uppsala University. He has been awarded Goran Gustafsson Prize for young researchers (2016 small and 2020 large), Young Investigator from European Photochemistry Association (2019) and Wallenberg Academy Fellow (2019). His research interests focus on development and investigation of sustainable materials including inorganic materials, molecules and polymers for solar energy conversion and storage. He has published 90 peer-reviewed papers and edited a book <Molecular Devices for Solar Energy Conversion and Storage>. His work has been cited by more than 6800 times and his h-index is 45.

| Date | Friday, March 24th, 2023

| Time | 11:00 ~ 

| Venue | 신소재 공동연구소 제1세미나실 (131동 101호)

[Abstract]

Organic polymeric photocatalysts have been attracted scientists’ interests during past years due to their low-cost, tunable bandgaps and energy levels, and promising photocatalytic performance. Making the traditional hydrophobic polymeric photocatalyst into nano-particles with size less than 100 nm, so-called polymer dots (Pdots), has shown significantly enhanced photocatalytic activity. Rational design of organic polymers is one of strategies to improve photocatalytic performance for hydrogen production. Moreover, making heterojunction Pdots can efficiently separate photogenerated charges within Pdots as well as utilize energy transfer process to enhance the light harvesting efficiency.  In this talk, I will discuss our research achievements in optimization of polymer structures on Pdots photocatalysis, study of photocatalytic mechanism in heterojunction Pdots systems and applications of Pdots in bio-hybrid photocatalytic systems.

| Host | 권민상 교수(02-880-8326)