Journal
CHEMISTRY LETTERS
Volume 50, Issue 1, Pages 166-179Publisher
CHEMICAL SOC JAPAN
DOI: 10.1246/cl.200691
Keywords
CO2 electrolysis; Hybridization with biological systems; Integrated artificial photosynthesis
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Funding
- Integrated Electrochemical Systems for Scalable CO2 Conversion to Chemical Feedstocks project performed as part of the Moonshot Research and Development Program - New Energy and Industrial Technology Development Organization (NEDO), Japan
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Integrated artificial photosynthesis aims to establish optimized systems for carbon recycling by combining high-efficiency photovoltaic and CO2 electrolysis technologies to achieve high efficiency and selectivity in converting sunlight into hydrocarbon products.
Integrated artificial photosynthesis is an approach to establish optimized systems for carbon recycling by combining highefficiency photovoltaic and CO2 electrolysis at high productivity and selectivity. In contrast to natural photosynthesis, the integrated system aims at high energy conversion efficiency from sunlight to hydrocarbon products taking advantage of both high efficiency in photovoltaic cells and the freedom of design for individual components, while learning from the advantage of photosynthesis to produce high-value chemicals.
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