Engineering Au single-atom sites embedded in TiO2 nanostructures for boosting photocatalytic methane oxidation

Qui Thanh Hoai Ta; Ly Tan Nhiem

doi:10.1039/D4NA00947A

Engineering Au single-atom sites embedded in TiO₂ nanostructures for boosting photocatalytic methane oxidation†

Qui Thanh Hoai Ta

^a and Ly Tan Nhiem

*^b

Author affiliations

* Corresponding authors

^a Institute of Chemical Technology, Vietnam Academy of Science and Technology, 1A TL29 Street, Thanh Loc Ward, District 12, Ho Chi Minh City 700000, Vietnam
E-mail: tathanhhoaiqui2292@gmail.com

^b Faculty of Chemical and Food Technology, Ho Chi Minh City University of Technology and Education, 01 Vo Van Ngan Street, Linh Chieu Ward, Thu Duc City, Ho Chi Minh City 700000, Vietnam
E-mail: nhiemlt@hcmute.edu.vn

Abstract

Photocatalytic methane oxidation under mild conditions using single-atom catalysts remains an advanced technology. In this work, gold single atoms (Au SAs) were introduced onto TiO₂ nanostructures using a simple method. The resulting performance demonstrated effective conversion of methane into H₂ and C₂ products at room temperature. The as-synthesized Au SA/TiO₂ exhibited a high hydrogen production rate of 2190 μmol g⁻¹, with selectivity reaching up to 58% under optimized conditions. The methane oxidation mechanism was investigated, revealing a methyl radical pathway for generating value-added chemicals. This research provides a strategy for photocatalytic methane conversion over single-atom-supported photocatalysts.

This article is part of the themed collections: Nanomaterials for catalysis and sensing applications and Popular Advances

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Article information

DOI: https://doi.org/10.1039/D4NA00947A
Article type: Paper
Submitted: 18 ១១ 2024
Accepted: 10 ១ 2025
First published: 13 ១ 2025
This article is Open Access

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Nanoscale Adv., 2025,7, 1543-1551

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Engineering Au single-atom sites embedded in TiO₂ nanostructures for boosting photocatalytic methane oxidation

Q. T. Hoai Ta and L. T. Nhiem, Nanoscale Adv., 2025, 7, 1543 DOI: 10.1039/D4NA00947A

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