A computational search of the ideal metal fragment for monohapto coordination of dihydrogen

IF 1 4区 化学 Q4 CHEMISTRY, MULTIDISCIPLINARY Australian Journal of Chemistry Pub Date : 2023-01-01 DOI:10.1071/ch23121
Lucía Morán-González, Feliu Maseras
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Abstract

Sigma complexes containing η2-H2 ligands, with both hydrogen atoms interacting with the metal center and with each other, are well known nowadays. The possibility of η1-H2 coordination, with only one hydrogen atom interacting with the metal center, remains an intriguing, but unreported, possibility. In this study, we used the hidden descriptors (HD) strategy previously developed in our group to investigate the capacity of well-established metal fragments to achieve stable LnM(η1-H2) metal complexes. Computational techniques, including low-cost density functional theory (DFT) calculations and the BDE Matrix App are used. The results confirm that the search for stable LnM(η1-H2) complexes is challenging, as no obvious candidate can be identified. Hints are obtained about what the properties of this hypothetic metal fragment should be, such as a strong tendency to covalent association with ligands. The outcomes of this research provide a comprehensive framework for comparing and investigating atypical candidates for this type of bonding and serve as a valuable resource for future explorations in this field.
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二氢单偶配位理想金属碎片的计算搜索
含有η - 2- h2配体的Sigma配合物,其两个氢原子与金属中心相互作用,并相互作用,目前已为人们所熟知。η - 1- h2配位的可能性,只有一个氢原子与金属中心相互作用,仍然是一个有趣的,但尚未报道的可能性。在这项研究中,我们使用了我们小组先前开发的隐藏描述符(HD)策略来研究已建立的金属碎片获得稳定的LnM(η - 1- h2)金属配合物的能力。计算技术,包括低成本密度泛函理论(DFT)计算和BDE矩阵应用程序。结果证实,寻找稳定的LnM(η - 1- h2)配合物是具有挑战性的,因为没有明显的候选物可以确定。得到了关于这个假设的金属碎片的性质的线索,例如与配体的共价结合的强烈倾向。本研究的结果为比较和研究这类键的非典型候选者提供了一个全面的框架,并为该领域的未来探索提供了宝贵的资源。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Australian Journal of Chemistry
Australian Journal of Chemistry 化学-化学综合
CiteScore
2.50
自引率
0.00%
发文量
65
审稿时长
1.3 months
期刊介绍: Australian Journal of Chemistry - an International Journal for Chemical Science publishes research papers from all fields of chemical science. Papers that are multidisciplinary or address new or emerging areas of chemistry are particularly encouraged. Thus, the scope is dynamic. It includes (but is not limited to) synthesis, structure, new materials, macromolecules and polymers, supramolecular chemistry, analytical and environmental chemistry, natural products, biological and medicinal chemistry, nanotechnology, and surface chemistry. Australian Journal of Chemistry is published with the endorsement of the Commonwealth Scientific and Industrial Research Organisation (CSIRO) and the Australian Academy of Science.
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