Issue 23, 2025

Phase effect of TiO2 on surface hydrogen adsorption/desorption in controlling photocatalytic methane conversion

Abstract

Identifying the rate-determining step is crucial for designing an effective photocatalytic system. The surface adsorption/desorption behaviour of reactants has received much less attention in photocatalyst design because the charge separation and transfer in the bulk is commonly regarded as a more sluggish process. In this work, we investigate photocatalytic methane (CH4) conversion (PMC) on various titanium oxide (TiO2) surfaces, including rutile and anatase, and reveal that the influence of surface CH4 adsorption can outweigh the photogenerated charge separation and transfer. Specifically, the rutile TiO2 surface is totally inert for CH4 activation. Further theoretical calculations reveal the significance of the hydrogen-adsorption/desorption process during the initial C–H bond cleavage on the TiO2 surface. A reversible hydrogen adsorption/desorption process with a small Gibbs free energy not only enables the activation of the first C–H bond in CH4 but also ensures a timely clearance of surface-adsorbed species, leading to a continuous PMC process. The findings of the phase effect study on the interaction between the photocatalyst surface and hydrogen atoms provide new insights into the rational design of efficient photocatalysts towards PMC. It also highlights the gap in transferring the knowledge of photocatalytic water splitting into PMC.

Graphical abstract: Phase effect of TiO2 on surface hydrogen adsorption/desorption in controlling photocatalytic methane conversion

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Article information

Article type
Edge Article
Submitted
06 Feb 2025
Accepted
27 Apr 2025
First published
08 May 2025
This article is Open Access

All publication charges for this article have been paid for by the Royal Society of Chemistry
Creative Commons BY-NC license

Chem. Sci., 2025,16, 10357-10363

Phase effect of TiO2 on surface hydrogen adsorption/desorption in controlling photocatalytic methane conversion

J. You, A. Baktash, D. Yao, Y. Zhang, S. Ding, J. Hou, G. Zhao, Y. Jin, Z. Wang and L. Wang, Chem. Sci., 2025, 16, 10357 DOI: 10.1039/D5SC00888C

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