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Earth-abundant transition metal oxides with extraordinary reversible oxygen exchange capacity for efficient thermochemical synthesis of solar fuels

Gao, Xiang (Michael); Liu, Guanyu; Zhu, Ye; Kreider, Peter; Bayon, Alicia; Gengenbach, Thomas; Lu, Teng; Liu, Yun; Hinkley, Jim; Lipinski, Wojciech; Tricoli, Antonio


Efficient storage of solar and wind power is one of the most challenging tasks still limiting the utilization of the prime but intermittent renewable energy sources. The direct storage of concentrated solar power in renewable fuels via thermochemical splitting of water and carbon dioxide on a redox material is a scalable approach with up to 54% solar-to-fuel conversion efficiency. Despite progress, the search for earth-abundant materials that can provide and maintain high H2 and CO production...[Show more]

CollectionsANU Research Publications
Date published: 2018
Type: Journal article
Source: Nano Energy
DOI: 10.1016/j.nanoen.2018.05.045
Access Rights: Open Access


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