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Water enables mild oxidation of methane to methanol on gold single-atom catalysts

Laihao Luo, Jie Luo, Hongliang Li, Fangning Ren, Yifei Zhang, Andong Liu, Wei‐Xue Li, Jie Zeng

2021Nature Communications275 citationsDOIOpen Access PDF

Abstract

Abstract As a 100% atom-economy process, direct oxidation of methane into methanol remains as a grand challenge due to the dilemma between activation of methane and over-oxidation of methanol. Here, we report that water enabled mild oxidation of methane into methanol with >99% selectivity over Au single atoms on black phosphorus (Au 1 /BP) nanosheets under light irradiation. The mass activity of Au 1 /BP nanosheets reached 113.5 μmol g catal −1 in water pressured with 33 bar of mixed gas (CH 4 :O 2 = 10:1) at 90 °C under light irradiation (1.2 W), while the activation energy was 43.4 kJ mol −1 . Mechanistic studies revealed that water assisted the activation of O 2 to generate reactive hydroxyl groups and •OH radicals under light irradiation. Hydroxyl groups reacted with methane at Au single atoms to form water and CH 3 * species, followed by oxidation of CH 3 * via •OH radicals into methanol. Considering the recycling of water during the whole process, we can also regard water as a catalyst.

Topics & Concepts

CatalysisMethaneMethanolRadicalChemistryAnaerobic oxidation of methanePhotochemistryIrradiationHydroxyl radicalWater-gas shift reactionAtom (system on chip)Organic chemistryNuclear physicsComputer scienceEmbedded systemPhysicsCatalytic Processes in Materials ScienceAdvanced Photocatalysis TechniquesElectrocatalysts for Energy Conversion