Actinide-Actinide Bonding: Electron Delocalisation and σ Aromaticity in the Tri-Thorium Cluster [{Th(η8-C8H8)(μ-Cl)2}3K2]

Josef Tomecek; Stephen Liddle; Nikolas Kaltsoyannis

Actinide-Actinide Bonding: Electron Delocalisation and σ Aromaticity in the Tri-Thorium Cluster [{Th(η⁸-C₈H₈)(μ-Cl)₂}₃K₂]

Josef Tomecek, Stephen Liddle, Nikolas Kaltsoyannis

Research output: Contribution to journal › Article › peer-review

Abstract

The tri-thorium cluster [{Th(η8-C8H8)(μ3-Cl)2}3{K(THF)2}2]∞ (Nature 2021, 598, 72–75) was reported to feature intriguing  aromatic bonding between the thorium atoms, a mode of metal–metal bonding unique in the actinide series. However, the presence of this bonding motif has since been challenged by others. Here, we computationally explore electron delocalisation in a molecular cluster fragment of [{Th(η8-C8H8)(μ3-Cl)2}3{K(THF)2}2]∞ and examine its responses to an applied magnetic field using a variety of methods. We also discuss the importance of the choice of basis set for the Th atoms and issues regarding locating QTAIM bond critical points. When taken together, the computed data consistently suggest the presence of delocalised Th–Th bonding and Th3 σ aromaticity.

Original language	English
Article number	e202300366
Journal	ChemPhysChem
Volume	24
Publication status	Published - 26 Jun 2023

Keywords

Thorium
Metal-metal bonding
Electron delocalisation
Applied magnetic field
Aromaticity

Cite this

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title = "Actinide-Actinide Bonding: Electron Delocalisation and σ Aromaticity in the Tri-Thorium Cluster [{Th(η8-C8H8)(μ-Cl)2}3K2]",

abstract = "The tri-thorium cluster [{Th(η8-C8H8)(μ3-Cl)2}3{K(THF)2}2]∞ (Nature 2021, 598, 72–75) was reported to feature intriguing  aromatic bonding between the thorium atoms, a mode of metal–metal bonding unique in the actinide series. However, the presence of this bonding motif has since been challenged by others. Here, we computationally explore electron delocalisation in a molecular cluster fragment of [{Th(η8-C8H8)(μ3-Cl)2}3{K(THF)2}2]∞ and examine its responses to an applied magnetic field using a variety of methods. We also discuss the importance of the choice of basis set for the Th atoms and issues regarding locating QTAIM bond critical points. When taken together, the computed data consistently suggest the presence of delocalised Th–Th bonding and Th3 σ aromaticity. ",

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author = "Josef Tomecek and Stephen Liddle and Nikolas Kaltsoyannis",

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language = "English",

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T1 - Actinide-Actinide Bonding: Electron Delocalisation and σ Aromaticity in the Tri-Thorium Cluster [{Th(η8-C8H8)(μ-Cl)2}3K2]

AU - Tomecek, Josef

AU - Liddle, Stephen

AU - Kaltsoyannis, Nikolas

PY - 2023/6/26

Y1 - 2023/6/26

N2 - The tri-thorium cluster [{Th(η8-C8H8)(μ3-Cl)2}3{K(THF)2}2]∞ (Nature 2021, 598, 72–75) was reported to feature intriguing  aromatic bonding between the thorium atoms, a mode of metal–metal bonding unique in the actinide series. However, the presence of this bonding motif has since been challenged by others. Here, we computationally explore electron delocalisation in a molecular cluster fragment of [{Th(η8-C8H8)(μ3-Cl)2}3{K(THF)2}2]∞ and examine its responses to an applied magnetic field using a variety of methods. We also discuss the importance of the choice of basis set for the Th atoms and issues regarding locating QTAIM bond critical points. When taken together, the computed data consistently suggest the presence of delocalised Th–Th bonding and Th3 σ aromaticity.

AB - The tri-thorium cluster [{Th(η8-C8H8)(μ3-Cl)2}3{K(THF)2}2]∞ (Nature 2021, 598, 72–75) was reported to feature intriguing  aromatic bonding between the thorium atoms, a mode of metal–metal bonding unique in the actinide series. However, the presence of this bonding motif has since been challenged by others. Here, we computationally explore electron delocalisation in a molecular cluster fragment of [{Th(η8-C8H8)(μ3-Cl)2}3{K(THF)2}2]∞ and examine its responses to an applied magnetic field using a variety of methods. We also discuss the importance of the choice of basis set for the Th atoms and issues regarding locating QTAIM bond critical points. When taken together, the computed data consistently suggest the presence of delocalised Th–Th bonding and Th3 σ aromaticity.

KW - Thorium

KW - Metal-metal bonding

KW - Electron delocalisation

KW - Applied magnetic field

KW - Aromaticity

M3 - Article

SN - 1439-4235

VL - 24

JO - ChemPhysChem

JF - ChemPhysChem

M1 - e202300366

ER -

Actinide-Actinide Bonding: Electron Delocalisation and σ Aromaticity in the Tri-Thorium Cluster [{Th(η8-C8H8)(μ-Cl)2}3K2]

Abstract

Keywords

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Actinide-Actinide Bonding: Electron Delocalisation and σ Aromaticity in the Tri-Thorium Cluster [{Th(η⁸-C₈H₈)(μ-Cl)₂}₃K₂]