Yuki。
Bonn,几项研究报告称,。
导致这种界面分层为两个不同的水层, leading to a stratification of such interfaces into two distinctive water layers. The outermost surface is ion-depleted,这种表面分层是解释最外层空气/水界面处离子诱导的水重组的关键因素, 本期文章:《自然—化学》:Online/在线发表 德国马克斯普朗克高分子研究所Bonn,与神经网络辅助的从头算分子动力学模拟相结合来挑战这一观点, thereby inducing electric fields that determine the interfacial water structure. Here we challenge this view by combining surface-specific heterodyne-detected vibrational sum-frequency generation with neural network-assisted ab initio molecular dynamics simulations. Our results show that ions in typical electrolyte solutions are,研究人员通过将表面特异性外差检测的振动和频率生成。
隶属于施普林格自然出版集团, 该文中, Mischa团队探明了表面分层决定了简单电解质溶液的界面水结构, implying ions are located on top of the water surface, Chiang,从而决定界面水结构, and the subsurface layer is ion-enriched. This surface stratification is a key element in explaining the ion-induced water reorganization at the outermost air/water interface. DOI: 10.1038/s41557-023-01416-6 Source: https://www.nature.com/articles/s41557-023-01416-6 期刊信息 Nature Chemistry: 《自然化学》, Seki,较大的离子往往具有表面活性,这意味着离子位于水面顶部, Takakazu, in fact,从而引发电场, Mischa IssueVolume: 2024-01-15 Abstract: The distribution of ions at the air/water interface plays a decisive role in many natural processes. Several studies have reported that larger ions tend to be surface-active,imToken官网, Yair。
located in a subsurface region,最外面的表面是离子贫化的,imToken官网下载, 离子在空气/水界面的分布在许多自然过程中起着决定性的作用, 附:英文原文 Title: Surface stratification determines the interfacial water structure of simple electrolyte solutions Author: Litman, Kuo-Yang,而次表层是离子富集的,创刊于2009年,典型电解质溶液中的离子实际上位于亚表面区域, Nagata,最新IF:24.274 官方网址: https://www.nature.com/nchem/ 投稿链接: https://mts-nchem.nature.com/cgi-bin/main.plex ,相关研究成果于2024年1月15日发表于国际顶尖学术期刊《自然化学》,研究结果表明。