Unusual facet and co-catalyst effects in TiO 2 -based photocatalytic coupling of methane.
Huizhen ZhangPengfei SunXiaozhen FeiXuejiao WuZongyi HuangWanfu ZhongQiaobin GongYanping ZhengQinghong ZhangShunji XieGang FuYe WangPublished in: Nature communications (2024)
Photocatalytic coupling of methane to ethane and ethylene (C 2 compounds) offers a promising approach to utilizing the abundant methane resource. However, the state-of-the-art photocatalysts usually suffer from very limited C 2 formation rates. Here, we report our discovery that the anatase TiO 2 nanocrystals mainly exposing {101} facets, which are generally considered less active in photocatalysis, demonstrate surprisingly better performances than those exposing the high-energy {001} facet. The palladium co-catalyst plays a pivotal role and the Pd 2+ site on co-catalyst accounts for the selective C 2 formation. We unveil that the anatase {101} facet favors the formation of hydroxyl radicals in aqueous phase near the surface, where they activate methane molecules into methyl radicals, and the Pd 2+ site participates in facilitating the adsorption and coupling of methyl radicals. This work provides a strategy to design efficient nanocatalysts for selective photocatalytic methane coupling by reaction-space separation to optimize heterogeneous-homogeneous reactions at solid-liquid interfaces.