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内嵌簇合物中的开放壳层:[Fe@Ge] 阴离子的结构与键合及与同结构的 [Co@Ge] 的比较

Open Shells in Endohedral Clusters: Structure and Bonding in the [Fe@Ge] Anion and Comparison to Isostructural [Co@Ge].

作者信息

Morgan Harry W T, Csizi Katja-Sophia, Huang Ya-Shan, Sun Zhong-Ming, McGrady John E

机构信息

Department of Chemistry, University of Oxford, South Parks Road, Oxford OX1 3QR, U.K.

Tianjin Key Lab of Rare Earth Materials and Applications, School of Materials Science and Engineering, Nankai University, Tianjin 300350, China.

出版信息

J Phys Chem A. 2021 Jun 3;125(21):4578-4588. doi: 10.1021/acs.jpca.1c02837. Epub 2021 May 20.

Abstract

The anionic cluster [Fe@Ge] has been characterized and shown to be isostructural to the known -symmetric α isomer of the cobalt analogue [Co@Ge]. Together with the known pair of compounds [Co@Ge] and [Fe@Ge], the title compound completes a set of four closely related germanium clusters that allow us to explore how the metal-metal and metal-cage interactions evolve as a function of size and of the identity of the metal. The results of spin-unrestricted density functional theory (DFT) and multiconfigurational self-consistent field (MC-SCF) calculations present a consistent picture of the electronic structure where transfer of electron density from the metal to the cage is significant, particularly in the Fe clusters where the exchange stabilization of unpaired spin density is an important driving force.

摘要

阴离子簇[Fe@Ge]已被表征,并且显示出与钴类似物[Co@Ge]的已知对称α异构体具有同构结构。与已知的化合物对[Co@Ge]和[Fe@Ge]一起,标题化合物构成了一组四个密切相关的锗簇,这使我们能够探索金属-金属和金属-笼相互作用如何随着尺寸和金属特性而演变。自旋非限制密度泛函理论(DFT)和多组态自洽场(MC-SCF)计算结果呈现出电子结构的一致图景,其中电子密度从金属转移到笼是显著的,特别是在铁簇中,未成对自旋密度的交换稳定化是一个重要的驱动力。

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