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Synergetic Atom‐Island and Metal Alloy Triggering Tandem Reaction for CH <sub>4</sub> Photooxidation to CH <sub>3</sub> OH

Zhen Xiao, Jinni Shen, Jianing Jiang, Jiangjie Zhang, Shuqi Liang, Shitong Han, Jinlin Long, Wenxin Dai, Yi Li, Xuxu Wang, Hailing Xi, Xianzhi Fu, Zizhong Zhang

2025Advanced Functional Materials13 citationsDOI

Abstract

Abstract CH 3 OH is the most desired product of photocatalytic CH 4 conversion. The prominent metal‐decorated photocatalyst is challenging in both high yield and selectivity for CH 3 OH products due to over‐oxidation by •OH mechanism. Here, interstitial Zn is fabricated into Zn i O to induce the formation of Zn atom island for rapid single electron reduction of O 2 into •OOH instead of •OH for the selective combination with methyl into CH 3 OOH. AuPd alloy is simultaneously decorated on Zn i O surface for tuning CH 3 OOH adsorption and reduction into CH 3 OH. The synergy of Zn atom island and AuPd alloy achieve a tandem reaction pathway (CH 4 →CH 3 OOH→CH 3 OH) for an unprecedented CH 3 OH yield of 2444 mmol g AuPd −1 h −1 (or 8800 µmol g cat −1 h −1 ) with 98.3% selectivity, which bypasses the •OH mechanism for tuning the high selectivity of CH 3 OH. An apparent quantum efficiency of 18.53% at 370 nm for CH 4 conversion are super to the reported photocatalytic systems. Thus, this work provides the new strategy of the synergetic atom island and metal alloy photocatalysts through a tandem reaction pathway to mediate the photocatalytic selective oxidation of CH 4 into the desired CH 3 OH.

Topics & Concepts

Materials scienceTandemAtom (system on chip)AlloyMetalNanotechnologyPhotochemistryChemical physicsMetallurgyComposite materialPhysicsChemistryComputer scienceEmbedded systemCatalytic Processes in Materials ScienceAdvanced Photocatalysis TechniquesCatalysis and Oxidation Reactions
Synergetic Atom‐Island and Metal Alloy Triggering Tandem Reaction for CH <sub>4</sub> Photooxidation to CH <sub>3</sub> OH | Litcius