A New Mars‐van Krevelen Mechanism for CO Oxidation on a Ti‐Decorated MXene

Xilin Zhang; Qianqian Peng; Lu Chen; Zhansheng Lu; Zongxian Yang; Kersti Hermansson

doi:10.1002/admi.202300070

Advanced Materials Interfaces (Oct 2023)

A New Mars‐van Krevelen Mechanism for CO Oxidation on a Ti‐Decorated MXene

Xilin Zhang,
Qianqian Peng,
Lu Chen,
Zhansheng Lu,
Zongxian Yang,
Kersti Hermansson

Affiliations

Xilin Zhang: School of Physics Henan Key Laboratory of Photovoltaic Materials Henan Normal University Xinxiang 453007 China
Qianqian Peng: School of Physics Henan Key Laboratory of Photovoltaic Materials Henan Normal University Xinxiang 453007 China
Lu Chen: School of Physics Henan Key Laboratory of Photovoltaic Materials Henan Normal University Xinxiang 453007 China
Zhansheng Lu: School of Physics Henan Key Laboratory of Photovoltaic Materials Henan Normal University Xinxiang 453007 China
Zongxian Yang: School of Physics Henan Key Laboratory of Photovoltaic Materials Henan Normal University Xinxiang 453007 China
Kersti Hermansson: Department of Chemistry–Ångström Uppsala University Box 538 75121 Uppsala Sweden

DOI: https://doi.org/10.1002/admi.202300070
Journal volume & issue: Vol. 10, no. 29
pp. n/a – n/a

Abstract

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Abstract First‐principles computations are performed to investigate the catalytic oxidation of CO on a Ti‐decorated Cr2TiC2O2 MXene monolayer, through comprehensive analysis of charge transfer, electronic density of states, and charge density difference of the interacting systems. By comparing the reaction energy barriers, it is found that, rather than the traditional Langmuir–Hinshelwood, Eley–Rideal, and Mars‐van Krevelen (MvK) mechanisms, the CO oxidation favours a new variant of the MvK mechanism, in which the anchored Ti atom activates the surface oxygen to spill over from the substrate and take part in the CO oxidation. This work highlights the importance of activating the surface oxygen atoms of MXene by foreign metal atoms to improve the catalytic activity, and suggests that further studies into the new MvK mechanism for CO oxidation may prove worthwhile.

Published in Advanced Materials Interfaces

ISSN: 2196-7350 (Online)
Publisher: Wiley-VCH
Country of publisher: Germany
LCC subjects: Science: Physics; Technology
Website: https://onlinelibrary.wiley.com/journal/21967350

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