CORDIS Project
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This project focuses on developing advanced catalysts for energy storage and conversion, specifically using metalloenzymes to efficiently catalyze hydrogen oxidation and redox reactions. By employing infrared methods to study enzyme chemistry, it aims to enhance our understanding of biological energy cycling and inspir…
Advanced catalysts for energy cycling will be essential to a future sustainable energy economy.
Interconversion of water and hydrogen allows solar and other green electricity to be stored in transportable form as H2 - a fuel for electricity generation on demand.
Precious metals (Pt) are the best catalysts currently available for H2 oxidation in fuel cells.
In contrast, readily available Ni/Fe form the catalytic centres of robust enzymes used by micro-organisms to oxidise or produce H2 selectiv…
THE CHANCELLOR, MASTERS AND SCHOLARS OF THE UNIVERSITY OF OXFORD
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