Synthesis of a Trigold Monocation: An Isolobal Analogue of [H<sub>3</sub>]<sup>+</sup>

Robilotto, Thomas J.; Bacsa, John; Gray, Thomas; Sadighi, Joseph P.

doi:10.1002/anie.201206712

Cited by 117 publications

(103 citation statements)

References 61 publications

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“…Moreover, from an experimental perspective, the Au 3 core of crystallized [Au 3 (IDipp) 3 ] 1+ [IDipp=1,3-bis(2,6-diisopropylphenyl)imidazol-2-ylidene] (ref. 5) and the Au 4 core of [Au 4 (PR 3 ) 4 ] 2+ (ref. 6) (Supplementary Table 2) are essentially the same as the elementary blocks Au 3 (2 e ) and Au 4 (2 e ), respectively, supporting the high stabilities of the Au 3 (2 e ) and Au 4 (2 e ).…”

Section: Resultsmentioning

confidence: 99%

“…A grand challenge to scientists in this field, however, is the precise determination of atomic structures of liganded gold clusters. To date, atomic structures of tens of liganded gold clusters have been determined via X-ray crystallography56789101112131415161718192021222324252627282930313233343536373839404142434445464748495051525354555657585960616263. Nevertheless, these revelations appear serendipitous as the structural determination largely hinges on availability of single crystals for the liganded gold clusters.…”

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A grand unified model for liganded gold clusters

et al. 2016

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A grand unified model (GUM) is developed to achieve fundamental understanding of rich structures of all 71 liganded gold clusters reported to date. Inspired by the quark model by which composite particles (for example, protons and neutrons) are formed by combining three quarks (or flavours), here gold atoms are assigned three ‘flavours' (namely, bottom, middle and top) to represent three possible valence states. The ‘composite particles' in GUM are categorized into two groups: variants of triangular elementary block Au3(2e) and tetrahedral elementary block Au4(2e), all satisfying the duet rule (2e) of the valence shell, akin to the octet rule in general chemistry. The elementary blocks, when packed together, form the cores of liganded gold clusters. With the GUM, structures of 71 liganded gold clusters and their growth mechanism can be deciphered altogether. Although GUM is a predictive heuristic and may not be necessarily reflective of the actual electronic structure, several highly stable liganded gold clusters are predicted, thereby offering GUM-guided synthesis of liganded gold clusters by design.

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A grand unified model for liganded gold clusters

et al. 2016

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“…[4] 2012 wurde der ligandenstabilisierte Goldcluster [(LAu) 3 ] + (L = 1,3-Bis(2,6-diisopropylphenyl)imidazol-2-yliden) isoliert (Abbildung 1). [5] + (Ar = C 6 H 4 F); [7] 4 ]w eist eine Cu-ZnBindungslänge von 2.498(2) a uf (gegenüber der in 2 5% länger). [14] Der durchschnittliche Zn-Cp* Zentroid -Abstand ist in 1 deutlich kürzer ( [19] in Verbindung mit der D3-Methode für Dispersionswechselwirkungen von Grimme et al [20] auf dem BP86(D3)/TZVPPNiveau berechnet.…”

Section: Das Tr Iwasserstoffkation [H 3 ]unclassified

Die σ‐aromatischen Cluster [Zn₃]⁺ und [Zn₂Cu] – kleinste molekulare Bausteine für Messing

et al. 2015

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“…[5] Thea romaticity/ antiaromaticity concept was also extended to bare metal clusters found in the gas phase. [12][13][14] Thus far,w ea re not aware of any solidstate compounds containing two all-metal s-aromatic fragments involving six delocalized electrons each. [7] Modern developments on aromaticity in various aromatic/antiaromatic chemical species composed of main-group elements and transition metals have been extensively reviewed elsewhere.…”

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“…[6] Fort he first time,t he saromaticity concept was shown to be applicable to small alkali metal and alkaline earth metal clusters. Hence,the 6s-electron aromatic fragments found in the [Au 2 Sb 16 ] 4À cluster in this study expand the family of storable aromatic metal clusters thus solidifying usefulness of the s-aromaticity concept in the solid state.Thet itle complex [Au 2 Sb 16 ] 4À (1), crystallizes in the form of [K([2.2.2]crypt)] 4 ·1·4 en ( Figure S1 and Table S1), was isolated from an ethylenediamine (en) solution of K 3 Sb 7 , Au(PPh 3 ) Ph,and 4,7,13,16,21,hexacosane ([2.2.2]crypt;e xperimental details can be found in the Supporting Information). [8][9][10][11] Fora ll all-metal aromatic fragments that have been synthesized in the solid state up to date,t here were only two delocalized electrons responsible for the s-aromaticity of the compounds,asexemplified by the cases of Pd 3 + ,Au 3 + ,and TiSn 2 clusters.…”

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Peculiar All‐Metal σ‐Aromaticity of the [Au₂Sb₁₆]⁴⁻ Anion in the Solid State

et al. 2016

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Gas-phase clusters are deemed to be s-aromatic when they satisfy the 4n + 2rule of aromaticity for delocalized s electrons and fulfill other requirements knownf or aromatic systems.W hile the range of nvalues was shown to be quite broad when applied to short-lived clusters found in molecularbeam experiments,s tability of all-metal cluster-like fragments isolated in condensed phase was previously shown to be mainly ascribed to two electrons (n = 0). In this work, the applicability of this concept is extended towards solid-state compounds by demonstrating au nique example of as torable compound, which was isolated as astable [K([2.2.2]crypt)] + salt, featuring a[ Au 2 Sb 16 ] 4À cluster core possessing two all-metal aromatic AuSb 4 fragments with six delocalized s electrons each (n = 1). This discovery pushes the boundaries of the original idea of KekulØ and firmly establishes the usefulness of the s-aromaticity concept as ag eneral idea for both small clusters and solid-state compounds.Although the original concept of aromaticity in chemistry was put forward by August KekulØ [1] more than 150 years ago, it currently occupies am assive niche in modern chemistry. [2] Theconcepts of p aromaticity/antiaromaticity were primarily used to explain chemical bonding in organic compounds. Today,t hese terms are well used for av ariety of molecules, including inorganic compounds.A longside,t hese concepts have also gained huge popularity as more and more chemical species are being discovered, where delocalized bonding is used to describe the structures.I n1 995, Robinson and coworkers reported [3] thes ynthesis of Na 2 [[(2,4,6-Me 3 C 6 H 2 ) 2 C 6 H 3 ]Ga] 3 with two p electrons delocalized over the three gallium atoms that make the system p-aromatic according to the Hückel rule.Recently,the first solid-state allmetal p-antiaromatic compounds [Ln(h 4 -Sb 4 ) 3 ] 3À (Ln = La, Y, Ho,E r, Lu) were synthesized and characterized. [4] The [U@Bi 12 ] 3À anion with similar geometry was reported very recently by Dehnen and co-workers. [5] Thea romaticity/ antiaromaticity concept was also extended to bare metal clusters found in the gas phase. [6] Fort he first time,t he saromaticity concept was shown to be applicable to small alkali metal and alkaline earth metal clusters. [7] Modern developments on aromaticity in various aromatic/antiaromatic chemical species composed of main-group elements and transition metals have been extensively reviewed elsewhere. [8][9][10][11] Fora ll all-metal aromatic fragments that have been synthesized in the solid state up to date,t here were only two delocalized electrons responsible for the s-aromaticity of the compounds,asexemplified by the cases of Pd 3 + ,Au 3 + ,and TiSn 2 clusters. [12][13][14] Thus far,w ea re not aware of any solidstate compounds containing two all-metal s-aromatic fragments involving six delocalized electrons each. Hence,the 6s-electron aromatic fragments found in the [Au 2 Sb 16 ] 4À cluster in this study expand the family of storable aromatic metal clusters thus solidifying ...

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Synthesis of a Trigold Monocation: An Isolobal Analogue of [H₃]⁺

Cited by 117 publications

References 61 publications

A grand unified model for liganded gold clusters

A grand unified model for liganded gold clusters

Die σ‐aromatischen Cluster [Zn₃]⁺ und [Zn₂Cu] – kleinste molekulare Bausteine für Messing

Peculiar All‐Metal σ‐Aromaticity of the [Au₂Sb₁₆]⁴⁻ Anion in the Solid State

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Synthesis of a Trigold Monocation: An Isolobal Analogue of [H3]+

Cited by 117 publications

References 61 publications

A grand unified model for liganded gold clusters

A grand unified model for liganded gold clusters

Die σ‐aromatischen Cluster [Zn3]+ und [Zn2Cu] – kleinste molekulare Bausteine für Messing

Peculiar All‐Metal σ‐Aromaticity of the [Au2Sb16]4− Anion in the Solid State

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Synthesis of a Trigold Monocation: An Isolobal Analogue of [H₃]⁺

Die σ‐aromatischen Cluster [Zn₃]⁺ und [Zn₂Cu] – kleinste molekulare Bausteine für Messing

Peculiar All‐Metal σ‐Aromaticity of the [Au₂Sb₁₆]⁴⁻ Anion in the Solid State