主讲人：Prof. Mikel C DUKE

时间：2019年5月31日（星期五）上午10:30

地点：材料化学工程国家重点实验室大楼三楼报告厅（70人）

主讲人介绍：

Mikel DUKE is a Professor of Membrane Science at the Institute for Sustainable Industries and Liveable Cities at Victoria University. Prof. Duke has worked for 18 years in materials and applications research of membrane technology for sustainable foods processing, resource recovery and water/energy saving applications at the University of Queensland, Johnson Matthey Technology Centre (UK), Arizona State University (USA) and Fudan University (China). In 2007, Prof Duke received a Linkage International Fellowship from the Australian Research Council, and then in 2010 he received an Endeavour Executive Award and the Victoria University Vice Chancellors Peak Award for Excellence in Research and Research Training. In 2016 he received the Anthony Fane Award for his outstanding contributions in membrane science and technology from the Membrane Society of Australasia. Prof Duke has published 179 articles registered by Scopus, attracting 4,428 citations and h-index of 38. He is also a former panel member of the Australian Research Council College of Experts and currently co-editor of the international journal Desalination.

主要内容：

Molecular scale porous inorganic materials have many beneficial physical, chemical and optical features for desalination, water treatment and drug delivery. This talk will highlight the history of improvement of amorphous microporous silica, MFI-type zeolite, carbon molecular sieves and catalytic titania for membrane coatings for desalination and water treatment. Also, recent research on the development of a novel membrane made by P25 titania coating on porous glass for convenient direction of light to the titania catalyst for chemical free membrane cleaning in delivering purified water will be presented. Finally, the application of metal organic frameworks (MOF) for the novel concept of light stimulated drug delivery will be presented, where externally applied 1050nm light was directed to an optical fibre tip coated with UiO-66, to desorb the impregnated anti-cancer drug 5-Fluorouracil allowing for in situ release offering a new route to localized drug administration.

主办单位：材料化学工程国家重点实验室