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超快时间分辨光谱研究液态到超临界水中水合电子的孪生复合。

Geminate recombination of hydrated electrons in liquid-to-supercritical water studied by ultrafast time-resolved spectroscopy.

机构信息

Abteilung für Molekulare Physikalische Chemie, Institut für Physikalische und Theoretische Chemie, Rheinische Friedrich-Wilhelms-Universität, Wegelerstraße 12, 53115 Bonn, Germany.

出版信息

Phys Chem Chem Phys. 2010 Oct 14;12(38):12169-76. doi: 10.1039/c0cp00762e. Epub 2010 Aug 11.

Abstract

Hydrated electrons were prepared by multi-photon ionization of neat water with 266 nm light. Using femtosecond pump-probe spectroscopy the dynamics of geminate recombination of the solvated electrons were studied over a wide temperature (296 K ≤T≤ 660 K) and density (0.18 g cm(-3)≤ρ≤ 1.00 g cm(-3)) range extending from the liquid well into the supercritical phase of water. The probability that hydrated electrons escape an initial recombination was found to strongly decrease with increasing temperature. In contrast, the isothermal density-dependence of this survival probability above the critical temperature was surprisingly weak. The peculiar dependence of the initial electron annihilation process on the thermodynamic state variables is discussed in terms of the Onsager model for initial recombination of ion pairs and an effective shielding of the electrostatic interactions of the recombining partners. A finite escape probability for a dielectric constant approaching unity can be interpreted by the existence of a minor fraction of highly mobile electrons created via autoionization.

摘要

通过用 266nm 光多光子电离纯水制备了水合电子。使用飞秒泵浦探针光谱法,在很宽的温度(296K≤T≤660K)和密度(0.18gcm(-3)≤ρ≤1.00gcm(-3))范围内研究了溶剂化电子的复合动力学,该范围从液态延伸到水的超临界相。发现水合电子逃脱初始复合的概率随着温度的升高而强烈降低。相比之下,在临界温度以上,这种存活概率的等温密度依赖性出人意料地弱。初始电子湮灭过程对热力学状态变量的特殊依赖性,可根据离子对初始复合的翁萨格模型和复合伙伴静电相互作用的有效屏蔽来讨论。介电常数接近 1 时存在有限的逃逸概率,可以通过存在少量通过自电离产生的高迁移率电子来解释。

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