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Literature DB >> 26671836

Activating a Low Overpotential CO2 Reduction Mechanism by a Strategic Ligand Modification on a Ruthenium Polypyridyl Catalyst.

Ben A Johnson¹, Somnath Maji¹, Hemlata Agarwala¹, Travis A White¹, Edgar Mijangos¹, Sascha Ott².

Abstract

The introduction of a simple methyl substituent on the bipyridine ligand of [Ru(tBu3 tpy)(bpy)(NCCH3 )](2+) (tBu3 tpy=4,4',4''-tri-tert-butyl-2,2':6',2''-terpyridine; bpy=2,2'-bipyridine) gives rise to a highly active electrocatalyst for the reduction of CO2 to CO. The methyl group enables CO2 binding already at the one-electron reduced state of the complex to enter a previously not accessible catalytic cycle that operates at the potential of the first reduction. The complex turns over with a Faradaic efficiency close to unity and at an overpotential that is amongst the lowest ever reported for homogenous CO2 reduction catalysts.

Entities: Chemical

Keywords: carbon dioxide reduction; electrocatalysis; overpotential; reaction mechanisms; ruthenium

Year: 2015 PMID： 26671836 DOI： 10.1002/anie.201508490

Source DB: PubMed Journal: Angew Chem Int Ed Engl ISSN： 1433-7851 Impact factor: 15.336

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Cited

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4. Electrocatalytic and Solar-Driven CO2 Reduction to CO with a Molecular Manganese Catalyst Immobilized on Mesoporous TiO2.

Authors: Timothy E Rosser; Christopher D Windle; Erwin Reisner
Journal: Angew Chem Int Ed Engl Date: 2016-04-25 Impact factor: 15.336