Issue 45, 2025, Issue in Progress

Mechanistic study of a CO-free pathway in the methanol oxidation reaction over oxygen vacancies in NiOOH

Abstract

The methanol oxidation reaction is a key reaction in direct methanol fuel cells. Prior research indicates that if oxygen vacancies in NiOOH serve as the active sites, the methanol oxidation mainly proceeds through the formate-involving pathway, which is a CO-free pathway, distinct from the conventional path over transition metal catalysts, though the fundamental reason for this suppressed CO formation is unclear. Herein, we report density functional theory calculations, through which we uncover the underlying reasons for this alternate path of methanol oxidation over the oxygen vacancies in NiOOH. We find that the existence of oxygen vacancies in NiOOH affects the adsorption configuration of adsorbates and that the interfacial charge transfer is minimal for CHO and CO intermediates. In addition, CHO, a key intermediate to form CO, adsorbs at the oxygen vacancy through the oxygen atom, leading to low stability due to the incomplete valence saturation of the carbon atom. This weak electronic interaction and instability effectively inhibit CHO formation and, consequently, CO formation. These insights provide valuable guidance for the development of efficient and CO-tolerant catalysts for methanol oxidation.

Graphical abstract: Mechanistic study of a CO-free pathway in the methanol oxidation reaction over oxygen vacancies in NiOOH

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Article information

Article type
Paper
Submitted
07 Aug 2025
Accepted
27 Sep 2025
First published
15 Oct 2025
This article is Open Access
Creative Commons BY-NC license

RSC Adv., 2025,15, 38354-38358

Mechanistic study of a CO-free pathway in the methanol oxidation reaction over oxygen vacancies in NiOOH

T. Ho, Q. P. Nguyen and B. Wang, RSC Adv., 2025, 15, 38354 DOI: 10.1039/D5RA05761B

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