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Regulation of O2 activation pathway boosts efficient photocatalytic methane oxidation to methanol

SEPARATION AND PURIFICATION TECHNOLOGY [2025]
Qiang Zhou, Yi Wan, Xinyu Wang, Qinhua Zhang, Haonan Zhang, Chong Qi, Ziyu Liu, Hao Yang, Tao Xing, Mingqing Wang, Mingbo Wu, Wenting Wu
ABSTRACT

Photocatalytic oxidation of methane to methanol is a promising process under mild conditions, nevertheless confronting great challenges in achieving high yield and selectivity of methanol simultaneously. Herein, we propose a strategy for the proper amount of hydroxyl radicals (•OH) generation from O 2 by rational design of Au nanoparticles and oxygen vacancies (OVs) co-decorated ZnO photocatalysts. For photocatalytic methane oxidation at ambient temperature, a high CH 3 OH yield of 6.3 mmol·g −1 ·h −1 with a nearly 100 % selectivity has been achieved over the optimized Au 2.5 -def-ZnO (2.5 wt% Au and OVs co-decorated ZnO) photocatalyst, exceeding most reported literatures. Mechanism investigations revealed that Au nanoparticles and OVs synergistically promoted charge separation, improved the adsorption and activation of CH 4 and O 2 , facilitating the selective generation of •OH from O 2 . Combined with the aqueous phase system, the over-oxidation of CH 3 OH was effectively inhibited, thereby achieving high yield and high selectivity of CH 3 OH simultaneously. This work provides some guidance for the design of high-performance photocatalysts for photocatalytic selective oxidation of methane to methanol.

MATERIALS

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