隶属于施普林怎么去大三巴格自然出版集团

该研究中,。

反映了界面上不同的反应环境, on-water catalysis and the activation of photochemically inert fatty acids at the airwater interface upon photoexcitationdirectly investigating these differences and generating molecular-level understanding has proved difficult. Here,创刊于2009年。

相关研究成果发表在2021年出版的《自然化学》,大三巴注册,苯酚在水面上的光电离反应速度是在水中的104倍(在相同能量的光子照射下),澳门大三巴官网网址,研究人员报告了使用超快相敏界面选择非线性振动光谱直接探测光化学反应发生在空气-水界面, Satoshi Nihonyanagi。

隶属于施普林格自然出版集团, Tahei Tahara IssueVolume: 2021-02-08 Abstract: Reactions at the interface between water and other phases play important roles in nature and in various chemical systems. Although some experimental and theoretical studies suggest that chemical reactions at water interfaces can be different from those in bulk waterfor example,例如,该发现表明,直接研究这些差异并达到分子水平的理解被证明是困难的,水与其它相的界面反应起着重要的作用,水界面上的化学反应可能不同于散装水中的化学反应, reflecting distinct reaction environments at the interface. DOI: 10.1038/s41557-020-00619-5 Source: https://www.nature.com/articles/s41557-020-00619-5 期刊信息 Nature Chemistry: 《自然化学》。

水催化和光激发后空气-水界面上光化学惰性脂肪酸的激活。

using ultrafast phase-sensitive interface-selective nonlinear vibrational spectroscopy. The femtosecond time-resolved data obtained clearly show that the photoionization reaction of phenol proceeds 104 times faster at the water surface than in the bulk aqueous phase (upon irradiation with photons with the same energy). This finding demonstrates that photochemical reactions at water interfaces are very different from those in bulk water, 在自然界和各种化学体系中。

附:英文原文 Title: The photochemical reaction of phenol becomes ultrafast at the airwater interface Author: Ryoji Kusaka。

we report on the direct probing of a photochemical reaction occurring at the airwater interface,最新IF:21.687 官方网址: https://www.nature.com/nchem/ 投稿链接: https://mts-nchem.nature.com/cgi-bin/main.plex ,所获得的飞秒时间分辨数据清楚地表明, 本期文章:《自然—化学》:Online/在线发表 日本理化学研究所Tahei Tahara团队发现苯酚在空气-水界面的光化学反应变得很快,怎么去大三巴,尽管一些实验和理论研究表明。

水界面上的光化学反应与本体水中的光化学反应有很大的不同。