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Solid-liquid-gas reaction accelerated by gas molecule tunnelling-like effect.

Wen WangTao XuJige ChenJunyi ShangguanHui DongHuishu MaQiubo ZhangJunwei YangTingting BaiZhirui GuoHaiping FangHaimei ZhengLi-Tao Sun
Published in: Nature materials (2022)
Solid-liquid-gas reactions are ubiquitous and are encountered in both nature and industrial processes 1-4 . A comprehensive description of gas transport in liquid and following reactions at the solid-liquid-gas interface, which is substantial in regard to achieving enhanced triple-phase reactions, remains unavailable. Here, we report a real-time observation of the accelerated etching of gold nanorods with oxygen nanobubbles in aqueous hydrobromic acid using liquid-cell transmission electron microscopy. Our observations reveal that when an oxygen nanobubble is close to a nanorod below the critical distance (~1 nm), the local etching rate is significantly enhanced by over one order of magnitude. Molecular dynamics simulation results show that the strong attractive van der Waals interaction between the gold nanorod and oxygen molecules facilitates the transport of oxygen through the thin liquid layer to the gold surface and thus plays a crucial role in increasing the etching rate. This result sheds light on the rational design of solid-liquid-gas reactions for enhanced activities.
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