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金属-二硫键配合物中的金属-硫价轨道相互作用能:通过比较核心和价层电离能位移来确定电荷和重叠相互作用能。

Metal-sulfur valence orbital interaction energies in metal-dithiolene complexes: determination of charge and overlap interaction energies by comparison of core and valence ionization energy shifts.

机构信息

Department of Chemistry and Biochemistry, The University of Arizona, Tucson, Arizona 85721, USA.

出版信息

Inorg Chem. 2011 Nov 7;50(21):11021-31. doi: 10.1021/ic201566n. Epub 2011 Oct 11.

DOI:10.1021/ic201566n
PMID:21988484
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3205315/
Abstract

The electronic interactions between metals and dithiolenes are important in the biological processes of many metalloenzymes as well as in diverse chemical and material applications. Of special note is the ability of the dithiolene ligand to support metal centers in multiple coordination environments and oxidation states. To better understand the nature of metal-dithiolene electronic interactions, new capabilities in gas-phase core photoelectron spectroscopy for molecules with high sublimation temperatures have been developed and applied to a series of molecules of the type Cp(2)M(bdt) (Cp = η(5)-cyclopentadienyl, M = Ti, V, Mo, and bdt = benzenedithiolato). Comparison of the gas-phase core and valence ionization energy shifts provides a unique quantitative energy measure of valence orbital overlap interactions between the metal and the sulfur orbitals that is separated from the effects of charge redistribution. The results explain the large amount of sulfur character in the redox-active orbitals and the 'leveling' of oxidation state energies in metal-dithiolene systems. The experimentally determined orbital interaction energies reveal a previously unidentified overlap interaction of the predominantly sulfur HOMO of the bdt ligand with filled π orbitals of the Cp ligands, suggesting that direct dithiolene interactions with other ligands bound to the metal could be significant for other metal-dithiolene systems in chemistry and biology.

摘要

金属与二硫烯之间的电子相互作用在许多金属酶的生物过程中以及在各种化学和材料应用中都很重要。特别值得注意的是,二硫烯配体能够支持金属中心处于多种配位环境和氧化态。为了更好地理解金属-二硫烯电子相互作用的本质,已经开发出了用于高升华温度分子的气相核心光电子能谱的新能力,并将其应用于一系列 Cp(2)M(bdt)(Cp = η(5)-环戊二烯基,M = Ti、V、Mo 和 bdt = 苯二硫醇)类型的分子。气相核心和价电离能位移的比较提供了一种独特的定量能量度量,用于衡量金属和硫轨道之间的价轨道重叠相互作用,这种度量与电荷重新分布的影响分开。结果解释了在氧化还原活性轨道中大量的硫特征,以及金属-二硫烯体系中氧化态能量的“平衡”。实验确定的轨道相互作用能揭示了 bdt 配体的主要为硫的 HOMO 与 Cp 配体的填充π轨道之间以前未被识别的重叠相互作用,这表明与金属结合的其他配体的直接二硫烯相互作用可能对化学和生物学中的其他金属-二硫烯体系具有重要意义。

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