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Molecular Inhibition for Selective CO2 Conversion

Schreiber, M; Fontecave, M; Creissen, C; Guillermo Rivera de la Cruz, J; Karapinar, D; Taverna, D

Authors

M Schreiber

M Fontecave

J Guillermo Rivera de la Cruz

D Karapinar

D Taverna



Abstract

Electrochemical CO2 reduction presents a sustainable route to the production of chemicals and fuels. Achieving a narrow product distribution with copper catalysts is challenging and conventional material modifications offer limited control over selectivity. Here, we show that the mild cathodic potentials required to reach high currents in an alkaline gas-fed flow cell permits retention of a surface-bound thiol (4-mercaptopyridine), enabling molecule-directed selective formate generation at high reaction rates. Combined experimental and computational results showed that formate production is favoured due to the inhibition of a CO producing pathway caused by destabilising interactions with the anchored molecule. The immobilisation of molecules to inhibit specific carbon-based products therefore offers a novel approach to rationally tune the selectivity of heterogeneous catalysts.

Citation

Schreiber, M., Fontecave, M., Creissen, C., Guillermo Rivera de la Cruz, J., Karapinar, D., & Taverna, D. (2022). Molecular Inhibition for Selective CO2 Conversion. ChemRxiv, https://doi.org/10.26434/chemrxiv-2022-63b91

Acceptance Date Jan 10, 2022
Publication Date Jan 10, 2022
Journal chemrxiv
Print ISSN 2573-2293
Publisher Cambridge University Press
DOI https://doi.org/10.26434/chemrxiv-2022-63b91
Public URL https://keele-repository.worktribe.com/output/423960
Publisher URL https://chemrxiv.org/engage/chemrxiv/article-details/61d6e71f828c2f203ed8a2bf
Related Public URLs https://chemrxiv.org/engage/chemrxiv/article-details/61d6e71f828c2f203ed8a2bf



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