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Electrochemically decoupled reduction of CO2 to formate over a dispersed heterogeneous bismuth catalyst enabled via redox mediators.


ABSTRACT: Electrochemical CO2 reduction is a topic of major interest in contemporary research as an approach to use renewably-derived electricity to synthesise useful hydrocarbons from waste CO2. Various strategies have been developed to optimise this challenging reaction at electrode interfaces, but to-date, decoupled electrolysis has not been demonstrated for the reduction of CO2. Decoupled electrolysis aims to use electrochemically-derived charged redox mediators - electrical charge and potential vectors - to separate catalytic product formation from the electrode surface. Utilising an electrochemically generated highly reducing redox mediator; chromium propanediamine tetraacetate, we report the first successful application of decoupled electrolysis to electrochemical CO2 reduction. A study of metals and metal composites found formate to be the most accessible product, with bismuth metal giving the highest selectivity. Copper, tin, gold, nickel and molybdenum carbide heterogeneous catalysts were also investigated, in which cases H2 was found to be the major product, with minor yields of two-electron CO2 reduction products. Subsequent optimisation of the bismuth catalyst achieved a high formate selectivity of 85%. This method represents a radical new approach to CO2 electrolysis, which may be coupled directly with renewable energy storage technology and green electricity.

SUBMITTER: Potter M 

PROVIDER: S-EPMC10782805 | biostudies-literature | 2024 Jan

REPOSITORIES: biostudies-literature

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Electrochemically decoupled reduction of CO<sub>2</sub> to formate over a dispersed heterogeneous bismuth catalyst enabled <i>via</i> redox mediators.

Potter Mark M   Smith Daniel E DE   Armstrong Craig G CG   Toghill Kathryn E KE  

EES catalysis 20231128 1


Electrochemical CO<sub>2</sub> reduction is a topic of major interest in contemporary research as an approach to use renewably-derived electricity to synthesise useful hydrocarbons from waste CO<sub>2</sub>. Various strategies have been developed to optimise this challenging reaction at electrode interfaces, but to-date, decoupled electrolysis has not been demonstrated for the reduction of CO<sub>2</sub>. Decoupled electrolysis aims to use electrochemically-derived charged redox mediators - elec  ...[more]

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