CINE WEBINAR: "Solar-driven Synthesis of Fuels and Chemicals from Biomass and Plastic Waste"

CINE WEBINAR: "Solar-driven Synthesis of Fuels and Chemicals from Biomass and Plastic Waste"

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Abstract

Artificial photosynthesis is a sustainable process that utilises solar energy to drive endothermic multi-electron chemical reactions for the production of fuels. This process often relies on expensive materials and device architectures as well as the dependence on the thermodynamically and kinetically water oxidation reaction, which challenges the development of ultimately economical devices.This presentation will give an overview about our recent progress in developing semiconductor systems to perform efficient full redox cycle solar catalysis using inexpensive components. Our approach bypasses the need for water oxidation as it employs the sustainable oxidation of waste biomass and plastics. This process is known as photoreforming and co-produces clean H2 fuel and organic chemicals. Thus, the bottleneck in classical artificial photosynthesis can be avoided while mitigating waste streams and expanding the chemical reaction space to improve the economics of this process. The principles and design considerations for the solar-driven photo-reforming process will be compared to traditional artificial photosynthetic systems and benefits and disadvantages discussed.


Speaker


Prof. Dr. Erwin Reisner

University of Cambridge

Erwin Reisner received his undergraduate and PhD degree from the University of Vienna (Austria), where he also spent two years at the New University of Lisbon and Technical University of Lisbon (Portugal). He subsequently worked as a postdoctoral researcher at the Massachusetts Institute of Technology (USA) and the University of Oxford (UK). He is currently Professor of Energy and Sustainability at the University of Cambridge and a Fellow of St. John’s College (UK). His laboratory explores the interface of chemical biology, synthetic chemistry, materials science, and engineering relevant to the development of solar-driven processes for the sustainable synthesis of fuels and chemicals.

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