Fuxing Pan scite author profile

Antiaromaticity, as introduced in 1965, usually refers to monocyclic systems with 4n π electrons. This concept was extended to all-metal molecules after the observation of Li3 Al4 (-) in the gas phase. However, the solid-phase counterparts have not been documented to date. Herein, we describe a series of all-metal antiaromatic anions, [Ln(η(4) -Sb4 )3 ](3-) (Ln=La, Y, Ho, Er, Lu), which were isolated as the K([2.2.2]crypt) salts and identified by single-crystal X-ray diffraction. Based on the results obtained from the chemical bonding analysis, multicenter indices, and the electron-counting rule, we conclude that the core [Ln(η(4) -Sb4 )3 ](3-) fragment of the crystal has three locally π-antiaromatic Sb4 fragments. This complex represents the first locally π-antiaromatic all-metal system in the solid state, which is stabilized by interactions of the three π-antiaromatic units with the central metal atom.

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An All-Metal Aromatic Sandwich Complex [Sb₃Au₃Sb₃]^3–

Pan

Wang³

et al. 2015

J. Am. Chem. Soc.

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A sandwich complex, as exemplified by ferrocene in the 1950s, usually refers to one metal center bound by two arene ligands. The subject has subsequently been extended to carbon-free aromatic ligands and multiple-metal-atom "monolayered" center, but not to an all-metal species. Here, we describe the synthesis of an unprecedented all-metal aromatic sandwich complex, [Sb3Au3Sb3](3-), which was isolated as K([2.2.2]crypt)(+) salt and identified by single-crystal X-ray diffraction. Quantum chemical calculations indicate that intramolecular electron transfers for the three metallic layers (Sb → Au donation and Sb ← Au back-donation) markedly redistribute the valence electrons from the cyclo-Sb3 ligands and Au3 interlayer to the Au-Sb bonds, which hold the complex together via σ bonding. Each cyclo-Sb3 possesses aromaticity with delocalized three-center three-electron (3c-3e) π bonds, which are essentially equivalent to a 3c-4e ππ* triplet system, following the reversed 4n Hückel rule for aromaticity in a triplet state.

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Fuxing Pan

All‐Metal Antiaromaticity in Sb₄‐Type Lanthanocene Anions

An All-Metal Aromatic Sandwich Complex [Sb₃Au₃Sb₃]^3–

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Fuxing Pan

All‐Metal Antiaromaticity in Sb4‐Type Lanthanocene Anions

An All-Metal Aromatic Sandwich Complex [Sb3Au3Sb3]3–

Contact Info

Product

Resources

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All‐Metal Antiaromaticity in Sb₄‐Type Lanthanocene Anions

An All-Metal Aromatic Sandwich Complex [Sb₃Au₃Sb₃]^3–