碱土和过渡金属二价水络合物的水合能和临界尺寸的周期性趋势。

IF 6.9 2区化学 Q1 SPECTROSCOPY

Mass Spectrometry Reviews Pub Date : 2023-01-16 DOI:10.1002/mas.21830

Fan Yang, P B Armentrout

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引用次数: 0

摘要

本综述包括水合金属二阳离子络合物的引导离子束串联质谱研究。金属包括第 2 族碱土（镁、钙、锶和钡）、晚期第一排过渡金属（锰、铁、钴、镍、铜和锌）以及镉。在所有情况下，阈值碰撞诱导解离实验都用于定量确定 M2+ (H2 O)x 复合物的顺序水合能，其大小从一个水分子到 11 个水分子不等。研究并讨论了这些键解离能的周期性趋势。如果有其他实验结果，还将这些值与之进行比较。除了通过简单的水配体损失而解离外，还观察到特定大小的配合物（因金属而异）会发生电荷分离，产生一个水合金属氢氧根阳离子和一个水合质子。这引出了临界尺寸 xcrit 的概念，并讨论了该值的周期性趋势。

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Periodic trends in the hydration energies and critical sizes of alkaline earth and transition metal dication water complexes.

This review encompasses guided ion beam tandem mass spectrometry studies of hydrated metal dication complexes. Metals include the Group 2 alkaline earths (Mg, Ca, Sr, and Ba), late first-row transition metals (Mn, Fe, Co, Ni, Cu, and Zn), along with Cd. In all cases, threshold collision-induced dissociation experiments are used to quantitatively determine the sequential hydration energies for M²⁺ (H₂ O)_x complexes ranging in size from one to 11 water molecules. Periodic trends in these bond dissociation energies are examined and discussed. Values are compared to other experimental results when available. In addition to dissociation by simple water ligand loss, complexes at a select size (which differs from metal to metal) are also observed to undergo charge separation to yield a hydrated metal hydroxide cation and a hydrated proton. This leads to the concept of a critical size, x_crit , and the periodic trends in this value are also discussed.

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来源期刊

Mass Spectrometry Reviews 物理-光谱学

CiteScore

16.30

自引率

3.00%

发文量

期刊介绍： The aim of the journal Mass Spectrometry Reviews is to publish well-written reviews in selected topics in the various sub-fields of mass spectrometry as a means to summarize the research that has been performed in that area, to focus attention of other researchers, to critically review the published material, and to stimulate further research in that area. The scope of the published reviews include, but are not limited to topics, such as theoretical treatments, instrumental design, ionization methods, analyzers, detectors, application to the qualitative and quantitative analysis of various compounds or elements, basic ion chemistry and structure studies, ion energetic studies, and studies on biomolecules, polymers, etc.