通过优化氧化还原介质和催化剂的相对电位来改善共电催化二氧化碳还原。

Improving co-electrocatalytic carbon dioxide reduction by optimizing the relative potentials of the redox mediator and catalyst.

作者信息

Reid Amelia G, Zelenke Ethan A, Moberg Megan E, Dickie Diane A, Machan Charles W

机构信息

Department of Chemistry, University of Virginia, McCormick Rd, PO Box 400319, Charlottesville, Virginia 22904-4319, USA.

出版信息

Chem Commun (Camb). 2024 Aug 1;60(63):8208-8211. doi: 10.1039/d4cc01988a.

DOI:10.1039/d4cc01988a

PMID:39015067

Abstract

The effects of fixing the redox mediator (RM) reduction potential relative to a series of Cr-centered complexes capable of the reduction of CO to CO are disclosed. The greatest co-electrocatalytic activity enhancement is observed when the reduction potentials of the catalyst and RM are identical, implying that controlling the speciation of the Cr complex relative to RM activation is essential for improving catalytic performance. In all cases, the potential where co-catalytic activity is observed matches the reduction potential of the RM, regardless of the relative reduction potential of the Cr complex.

摘要

公开了相对于一系列能够将CO还原为CO的以Cr为中心的配合物固定氧化还原介质（RM）还原电位的效果。当催化剂和RM的还原电位相同时，观察到最大的共电催化活性增强，这意味着相对于RM活化控制Cr配合物的形态对于提高催化性能至关重要。在所有情况下，观察到共催化活性的电位与RM的还原电位相匹配，而与Cr配合物的相对还原电位无关。

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通过优化氧化还原介质和催化剂的相对电位来改善共电催化二氧化碳还原。

Improving co-electrocatalytic carbon dioxide reduction by optimizing the relative potentials of the redox mediator and catalyst.

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