离子-分子反应的速度成像。

Velocity map imaging of ion-molecule reactions.

机构信息

Institut für Ionenphysik und Angewandte Physik, Universität Innsbruck, Technikerstraße 25, 6020 Innsbruck, Austria.

出版信息

Phys Chem Chem Phys. 2014 Jan 14;16(2):396-405. doi: 10.1039/c3cp53405g.

PMID:24195964

Abstract

Velocity map imaging has been a highly successful method to study molecular and chemical dynamics. In recent years, we have combined this method with ion-molecule reactive scattering experiments and studied the dynamics of several fundamental ion-molecule reactions. Here, we describe the main components of the experiment and discuss the most important limitations to the obtainable imaging resolution. Then, results from our group are presented for both cation and anion-molecule reactions. Specifically, the charge transfer reaction Ar(+) + N2 and the nucleophilic substitution reaction X(-) + CH3I (X = Cl, F, OH), including recent results on micro-solvated water cluster anions, are reviewed. Furthermore, new and open questions and several future directions for research on ion-molecule reactive scattering are mapped out.

摘要

速度成像技术已经成为研究分子和化学反应动力学的一种非常成功的方法。近年来，我们将这种方法与离子-分子反应散射实验相结合，研究了几种基本的离子-分子反应的动力学。在这里，我们描述了实验的主要组成部分，并讨论了可获得的成像分辨率的最重要限制。然后，我们展示了我们小组在阳离子和阴离子-分子反应方面的结果。具体来说，介绍了 Ar(+) + N2 的电荷转移反应和亲核取代反应 X(-) + CH3I（X = Cl、F、OH），包括最近关于微溶剂化水团簇阴离子的结果。此外，还提出了关于离子-分子反应散射的新的和开放的问题，以及未来的几个研究方向。

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离子-分子反应的速度成像。

Velocity map imaging of ion-molecule reactions.

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