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Selectivity control of CO versus HCOO− production in the visible-light-driven catalytic reduction...

Updated: Jul 24, 2020

It is highly desirable to discover molecular catalysts with controlled selectivity for visible-light-driven CO2reduction to fuels. In the design of catalysts employing earth-abundant metals, progress has been made for CO production, but formate generation has been observed more rarely. Here, we report a binuclear Co complex bearing a bi-quaterpyridine ligand that can selectively reduce CO2to HCOOor CO under visible light irradiation. Selective formate production (maximum of 97%) was obtained with a turnover number of up to 821 in basic acetonitrile solution. Conversely, in the presence of a weak acid, CO2reduction affords CO with high selectivity (maximum of 99%) and a maximum turnover number of 829. The catalytic process is controlled by the two Co atoms acting synergistically, and the selectivity can be steered towards the desired product by simply changing the acid co-substrate.

Reference: Guo, Z.; Chen, G.; Cometto, C.; Ma, B.; Zhao, H.; Groizard, T.; Chen, L.; Fan, H.; Man, W.-L.; Yiu, S.-M.; Lau, K.-C.; Lau, T.-C.; Robert, M. Selectivity Control of CO versus HCOO − Production in the Visible-Light-Driven Catalytic Reduction of CO 2 with Two Cooperative Metal Sites. Nature Catalysis2019, 2 (9), 801–808.

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Date of publication: August 12, 2019

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