Double-Layer Distribution of Hydronium and Hydroxide Ions in the Air–Water Interface

氢铵 氢氧化物 接口(物质) 水溶液 离子 基础(拓扑) 图层(电子) 无机化学 空中接口 化学 材料科学 化学工程 物理化学 计算机科学 有机化学 数学 工程类 吉布斯等温线 数学分析 电信 无线
作者
Pengchao Zhang,Muye Feng,Xuefei Xu
出处
期刊:ACS Physical Chemistry Au [American Chemical Society]
卷期号:4 (4): 336-346 被引量:24
标识
DOI:10.1021/acsphyschemau.3c00076
摘要

The acid-base nature of the aqueous interface has long been controversial. Most macroscopic experiments suggest that the air-water interface is basic based on the detection of negative charges at the interface that indicates the enrichment of hydroxides (OH-), whereas microscopic studies mostly support the acidic air-water interface with the observation of hydronium (H3O+) accumulation in the top layer of the interface. It is crucial to clarify the interfacial preference of OH- and H3O+ ions for rationalizing the debate. In this work, we perform deep potential molecular dynamics simulations to investigate the preferential distribution of OH- and H3O+ ions at the aqueous interfaces. The neural network potential energy surface is trained based on density functional theory calculations with the SCAN functional, which can accurately describe the diffusion of these two ions both in the interface and in the bulk water. In contrast to the previously reported single ion enrichment, we show that both OH- and H3O+ surprisingly prefer to accumulate in interfaces but at different interfacial depths, rendering a double-layer ionic distribution within ∼1 nm near the Gibbs dividing surface. The H3O+ preferentially resides in the topmost layer of the interface, but the OH-, which is enriched in the deeper interfacial layer, has a higher equilibrium concentration due to the more negative free energy of interfacial stabilization [-0.90 (OH-) vs -0.56 (H3O+) kcal/mol]. The present finding of the ionic double-layer distribution may qualitatively offer a self-consistent explanation for the long-term controversy about the acid-base nature of the air-water interface.
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