Chemical Bonding and σ-Aromaticity in Charged Molecular Alloys: [Pd2As14]4− and [Au2Sb14]4− Clusters

Chemical Bonding and σ-Aromaticity in Charged Molecular Alloys: [Pd2As14]4− and [Au2Sb14]4− Clusters

Abstract We report a computational study on the structures and bonding of a charged molecular alloy D 2h [Pd2As14]4− (1), as well as a model D 2h [Au2Sb14]4− (2) cluster. Our effort makes use of an array of quantum chemistry tools: canonical molecular orbital analysis, adaptive natural density parti...

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Main Authors: Xue-Rui You, Lin-Yan Feng, Rui Li, Hua-Jin Zhai
Format: Article
Language:English
Published: Nature Publishing Group 2017-04-01
Series:Scientific Reports
Online Access:https://doi.org/10.1038/s41598-017-00867-5
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spelling doaj-36230522e84f4fa39c50ea06164f733a2020-12-08T02:43:52ZengNature Publishing GroupScientific Reports2045-23222017-04-017111010.1038/s41598-017-00867-5Chemical Bonding and σ-Aromaticity in Charged Molecular Alloys: [Pd2As14]4− and [Au2Sb14]4− ClustersXue-Rui You0Lin-Yan Feng1Rui Li2Hua-Jin Zhai3Nanocluster Laboratory, Institute of Molecular Science, Shanxi UniversityNanocluster Laboratory, Institute of Molecular Science, Shanxi UniversityNanocluster Laboratory, Institute of Molecular Science, Shanxi UniversityNanocluster Laboratory, Institute of Molecular Science, Shanxi UniversityAbstract We report a computational study on the structures and bonding of a charged molecular alloy D 2h [Pd2As14]4− (1), as well as a model D 2h [Au2Sb14]4− (2) cluster. Our effort makes use of an array of quantum chemistry tools: canonical molecular orbital analysis, adaptive natural density partitioning, natural bond orbital analysis, orbital composition analysis, and nucleus independent chemical shift calculations. Both clusters consist of two X7 (X = As, Sb) cages, which are interconnected via a M2 (M = Pd, Au) dumbbell, featuring two distorted square-planar MX4 units. Excluding the Pd/As or Au/Sb lone-pairs, clusters 1 and 2 are 50- and 44-electron systems, respectively, of which 32 electrons are for two-center two-electron (2c-2e) As-As or Sb-Sb σ bonds and an additional 16 electrons in 1 for 2c-2e Pd-As σ bonds. No covalent Pd-Pd or Au-Au bond is present in the systems. Cluster 1 is shown to possess two globally delocalized σ electrons, whereas 2 has two σ sextets (each associated with an AuSb4 fragment). Thus, 1 and 2 conform to the (4n + 2) Hückel rule, for n = 0 and 1, respectively, rendering them σ-aromaticity.https://doi.org/10.1038/s41598-017-00867-5
collection DOAJ
language English
format Article
sources DOAJ
author Xue-Rui You
Lin-Yan Feng
Rui Li
Hua-Jin Zhai
spellingShingle Xue-Rui You
Lin-Yan Feng
Rui Li
Hua-Jin Zhai
Chemical Bonding and σ-Aromaticity in Charged Molecular Alloys: [Pd2As14]4− and [Au2Sb14]4− Clusters
Scientific Reports
author_facet Xue-Rui You
Lin-Yan Feng
Rui Li
Hua-Jin Zhai
author_sort Xue-Rui You
title Chemical Bonding and σ-Aromaticity in Charged Molecular Alloys: [Pd2As14]4− and [Au2Sb14]4− Clusters
title_short Chemical Bonding and σ-Aromaticity in Charged Molecular Alloys: [Pd2As14]4− and [Au2Sb14]4− Clusters
title_full Chemical Bonding and σ-Aromaticity in Charged Molecular Alloys: [Pd2As14]4− and [Au2Sb14]4− Clusters
title_fullStr Chemical Bonding and σ-Aromaticity in Charged Molecular Alloys: [Pd2As14]4− and [Au2Sb14]4− Clusters
title_full_unstemmed Chemical Bonding and σ-Aromaticity in Charged Molecular Alloys: [Pd2As14]4− and [Au2Sb14]4− Clusters
title_sort chemical bonding and σ-aromaticity in charged molecular alloys: [pd2as14]4− and [au2sb14]4− clusters
publisher Nature Publishing Group
series Scientific Reports
issn 2045-2322
publishDate 2017-04-01
description Abstract We report a computational study on the structures and bonding of a charged molecular alloy D 2h [Pd2As14]4− (1), as well as a model D 2h [Au2Sb14]4− (2) cluster. Our effort makes use of an array of quantum chemistry tools: canonical molecular orbital analysis, adaptive natural density partitioning, natural bond orbital analysis, orbital composition analysis, and nucleus independent chemical shift calculations. Both clusters consist of two X7 (X = As, Sb) cages, which are interconnected via a M2 (M = Pd, Au) dumbbell, featuring two distorted square-planar MX4 units. Excluding the Pd/As or Au/Sb lone-pairs, clusters 1 and 2 are 50- and 44-electron systems, respectively, of which 32 electrons are for two-center two-electron (2c-2e) As-As or Sb-Sb σ bonds and an additional 16 electrons in 1 for 2c-2e Pd-As σ bonds. No covalent Pd-Pd or Au-Au bond is present in the systems. Cluster 1 is shown to possess two globally delocalized σ electrons, whereas 2 has two σ sextets (each associated with an AuSb4 fragment). Thus, 1 and 2 conform to the (4n + 2) Hückel rule, for n = 0 and 1, respectively, rendering them σ-aromaticity.
url https://doi.org/10.1038/s41598-017-00867-5
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AT linyanfeng chemicalbondingandsaromaticityinchargedmolecularalloyspd2as144andau2sb144clusters
AT ruili chemicalbondingandsaromaticityinchargedmolecularalloyspd2as144andau2sb144clusters
AT huajinzhai chemicalbondingandsaromaticityinchargedmolecularalloyspd2as144andau2sb144clusters
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