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Abstract
Photochemical reduction of CO2 (to produce formic acid) can be seen both as a method to produce a transportable hydrogen-based fuel and also to reduce levels of CO2 in the atmosphere. However, an often overlooked necessity for photochemical CO2 reduction is the need for a sacrificial electron donor, usually a tertiary amine. Here, we describe a new strategy for coupling the photochemical reduction of CO2 to photochemical water splitting, and illustrate this with a prototype example. Instead of seeking to eliminate the use of an external reducing agent altogether, our alternative strategy makes the reducing agent recyclable. This has two potential advantages over the direct coupling of CO2 reduction and water oxidation. First, it allows the two redox reactions to be carried out with existing chemistry, and second, it permits these reactions to be conducted under mutually incompatible conditions. Photochemical reduction of CO2 usually requires the use of a sacrificial electron donor (reductant). Here, a tertiary amine reductant is described that can be regenerated by H2 addition. This permits the formal coupling of CO2 reduction to photochemical water splitting, thereby offering an approach to artificial photosynthesis. Cite this article
Richardson, R., Holland, E. & Carpenter, B. A renewable amine for photochemical reduction of CO2. Nature Chem 3, 301–303 (2011). https://doi.org/10.1038/nchem.1000 