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Molecular Copper(I)-Copper(II) Photosensitizer-Catalyst Photoelectrode for Water Oxidation.

Author(s): Singh Z, Donnarumma PR, Majewski MB

Copper(II)-based electrocatalysts for water oxidation in aqueous solution have been studied previously, but photodriving these systems still remains a challenge. In this work, a bis(diimine)copper(I)-based donor-chromophore-acceptor system is synthesized an...

Article GUID: 32909755

Tuning Inner-Sphere Electron Transfer in a Series of Copper/Nitrosoarene Adducts.

Author(s): Askari MS, Effaty F, Gennarini F, Orio M, Le Poul N, Ottenwaelder X

Inorg Chem. 2020 Feb 19;: Authors: Askari MS, Effaty F, Gennarini F, Orio M, Le Poul N, Ottenwaelder X

Article GUID: 32073833


Title:Molecular Copper(I)-Copper(II) Photosensitizer-Catalyst Photoelectrode for Water Oxidation.
Authors:Singh ZDonnarumma PRMajewski MB
Link:https://www.ncbi.nlm.nih.gov/pubmed/32909755
DOI:10.1021/acs.inorgchem.0c01670
Category:Inorg Chem
PMID:32909755
Dept Affiliation: CNSR
1 Department of Chemistry and Biochemistry and Centre for NanoScience Research Concordia University 7141 Sherbrooke Street West, Montreal, Quebec H4B 1R6, Canada.

Description:

Molecular Copper(I)-Copper(II) Photosensitizer-Catalyst Photoelectrode for Water Oxidation.

Inorg Chem. 2020 Sep 10; :

Authors: Singh Z, Donnarumma PR, Majewski MB

Abstract

Copper(II)-based electrocatalysts for water oxidation in aqueous solution have been studied previously, but photodriving these systems still remains a challenge. In this work, a bis(diimine)copper(I)-based donor-chromophore-acceptor system is synthesized and applied as the light-harvesting component of a photoanode. This molecular assembly was integrated onto a zinc oxide nanowire surface, and upon photoexcitation, chronoamperometric studies reveal that the integrated triad can inject electrons directly into the conduction band of zinc oxide, generating oxidizing equivalents that are then transferred to a copper(II) water oxidation catalyst in aqueous solution, yielding O2 from water with a Faradaic efficiency of 76%.

PMID: 32909755 [PubMed - as supplied by publisher]