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Advances in materials chemistry applied to renewable energy conversion and storage

来源:合肥微尺度物质科学国家实验室    浏览次数:0


报告题目   Advances in materials chemistry applied to renewable energy conversion and storage
报告人   Prof. Edward Hartley Sargent
报告人单位   University of Toronto
报告时间   2017-08-02   16:30
报告地点   中国科学技术大学环资楼一楼报告厅
主办单位   合肥微尺度物质科学国家实验室、中国科学技术大学化学与材料科学学院
报告介绍
Abstract:
Vast advances in materials and physical chemistry have led us to the point that, today, we can create a wide range of tunable, solution-processed materials whose spectral properties span the visible and infrared. These are enabling flexible solar cells, top-surface photodetectors, and ubiquitous light sources. This has in turn enabled rapid progress in the cost-effective conversion of solar energy into electrical power. These advances bring about a new challenge, namely, the need for massive (seasonal-scale) storage of energy. I will describe how the use of computational materials science, spectroscopies including ultrafast and synchrotron, and advances in materials chemistry, are accelerating the creation of new catalysts for CO2 reduction and oxygen evolution. I will discuss recent advances including a new high-activity OER catalyst and a low-overpotential CO2 reduction catalyst based on field-induced reagent concentration.
Biosketch:
  Ted Sargent received the B.Sc.Eng. (Engineering Physics) from Queen's University in 1995 and the Ph.D. in Electrical and Computer Engineering (Photonics) from the University of Toronto in 1998. He holds the rank of University Professor in the Edward S. Rogers Sr. Department of Electrical and Computer Engineering at the University of Toronto. He holds the Canada Research Chair in Nanotechnology and also serves as Vice President - International for the University of Toronto. He is founder and CTO of InVisage Technologies and a co-founder of Xagenic. He is a Fellow of the Royal Society of Canada; a Fellow of the AAAS “...for distinguished contributions to the development of solar cells and light sensors based on solution-processed semiconductors;” and a Fellow of the IEEE “... for contributions to colloidal quantum dot optoelectronic devices.” He is Fellow of the Canadian Academy of Engineering for “…ground-breaking research in nanotechnology, applying novel quantum-tuned materials to the realization of full-spectrum solar cells and ultra sensitive light detectors. The impact of his work has been felt in industry through his formation of two start-up companies." His publications have been cited over 20,000 times [Scopus].

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