Investigation of Water Splitting Reaction by a Multicopper Oxidase through X‐ray Absorption Nanospectroelectrochemistry (Adv. Energy Mater. 47/2022)

Water Splitting The water oxidation reaction catalyzed by bilirubin oxidase demonstrates an inverse proton dependence relative to the native oxygen reduction reaction. In article number 2202485, Frank N. Crespilho, and co‐workers demonstrate the high‐valent copper character of the enzyme active site...

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Veröffentlicht in:	Advanced energy materials 2022-12, Vol.12 (47), p.n/a
Hauptverfasser:	Sedenho, Graziela C., Neckel, Itamar T., Colombo, Rafael N. P., Pacheco, Jéssica C., Bertaglia, Thiago, Crespilho, Frank N.
Format:	Artikel
Sprache:	eng
Schlagworte:	Absorption bioelectrocatalysis Chemical reduction microspectroelectrochemistry multicopper oxidases Oxidase Oxidation Oxygen reduction reactions water oxidation Water splitting X‐ray absorption spectroscopy
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container_title	Advanced energy materials
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creator	Sedenho, Graziela C. Neckel, Itamar T. Colombo, Rafael N. P. Pacheco, Jéssica C. Bertaglia, Thiago Crespilho, Frank N.
description	Water Splitting The water oxidation reaction catalyzed by bilirubin oxidase demonstrates an inverse proton dependence relative to the native oxygen reduction reaction. In article number 2202485, Frank N. Crespilho, and co‐workers demonstrate the high‐valent copper character of the enzyme active site during the water oxidation bioelectrocatalysis through X‐ray absorption nanospectroelectrochemistry.
doi_str_mv	10.1002/aenm.202270201
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subjects	Absorption bioelectrocatalysis Chemical reduction microspectroelectrochemistry multicopper oxidases Oxidase Oxidation Oxygen reduction reactions water oxidation Water splitting X‐ray absorption spectroscopy
title	Investigation of Water Splitting Reaction by a Multicopper Oxidase through X‐ray Absorption Nanospectroelectrochemistry (Adv. Energy Mater. 47/2022)
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