Rubidium and caesium aluminyls: Synthesis, structures and reactivity in C-H bond activation of benzene

Thomas X. Gentner; Matthew J. Evans; Alan R. Kennedy; Sam E. Neale; Claire L. McMullin; Martyn P. Coles; Robert E. Mulvey

doi:10.1039/d1cc05379e

Rubidium and caesium aluminyls: Synthesis, structures and reactivity in C-H bond activation of benzene

Thomas X. Gentner
, Matthew J. Evans
, Alan R. Kennedy
, Sam E. Neale
, Claire L. McMullin
, Martyn P. Coles
, Robert E. Mulvey

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

49 Citations (Scopus)

Abstract

Expanding knowledge of low valent aluminium chemistry, rubidium and caesium aluminyls are reported to complete the group 1 (Li-Cs) set of metal aluminyls. Both compounds crystallize as a contacted dimeric pair supported by M⋯π(arene) interactions with a pronounced twist between aluminyl units. Density functional theory calculations show symmetrical bonding between the M and Al atoms, with an Al centred lone-pair donating into vacant Rb and Cs orbitals. Interestingly, despite their structural similarity the Cs aluminyl enables C-H bond activation of benzene, but not the Rb aluminyl reflecting the importance of the alkali metal in these heterobimetallic systems.

Original language	English
Pages (from-to)	1390-1393
Number of pages	4
Journal	Chemical Communications
Volume	58
Issue number	9
DOIs	https://doi.org/10.1039/d1cc05379e
Publication status	Published - 28 Jan 2022
Externally published	Yes

Keywords

Rubidium
caesium
aluminyls
C–H bond activation
Benzene activation
heterobimetallic

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10.1039/d1cc05379eLicence: CC BY

Published versionFinal published version, 2.26 MBLicence: CC BY

Cite this

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title = "Rubidium and caesium aluminyls: Synthesis, structures and reactivity in C-H bond activation of benzene",

abstract = "Expanding knowledge of low valent aluminium chemistry, rubidium and caesium aluminyls are reported to complete the group 1 (Li-Cs) set of metal aluminyls. Both compounds crystallize as a contacted dimeric pair supported by M⋯π(arene) interactions with a pronounced twist between aluminyl units. Density functional theory calculations show symmetrical bonding between the M and Al atoms, with an Al centred lone-pair donating into vacant Rb and Cs orbitals. Interestingly, despite their structural similarity the Cs aluminyl enables C-H bond activation of benzene, but not the Rb aluminyl reflecting the importance of the alkali metal in these heterobimetallic systems.",

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doi = "10.1039/d1cc05379e",

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T1 - Rubidium and caesium aluminyls

T2 - Synthesis, structures and reactivity in C-H bond activation of benzene

AU - Gentner, Thomas X.

AU - Evans, Matthew J.

AU - Kennedy, Alan R.

AU - Neale, Sam E.

AU - McMullin, Claire L.

AU - Coles, Martyn P.

AU - Mulvey, Robert E.

PY - 2022/1/28

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N2 - Expanding knowledge of low valent aluminium chemistry, rubidium and caesium aluminyls are reported to complete the group 1 (Li-Cs) set of metal aluminyls. Both compounds crystallize as a contacted dimeric pair supported by M⋯π(arene) interactions with a pronounced twist between aluminyl units. Density functional theory calculations show symmetrical bonding between the M and Al atoms, with an Al centred lone-pair donating into vacant Rb and Cs orbitals. Interestingly, despite their structural similarity the Cs aluminyl enables C-H bond activation of benzene, but not the Rb aluminyl reflecting the importance of the alkali metal in these heterobimetallic systems.

AB - Expanding knowledge of low valent aluminium chemistry, rubidium and caesium aluminyls are reported to complete the group 1 (Li-Cs) set of metal aluminyls. Both compounds crystallize as a contacted dimeric pair supported by M⋯π(arene) interactions with a pronounced twist between aluminyl units. Density functional theory calculations show symmetrical bonding between the M and Al atoms, with an Al centred lone-pair donating into vacant Rb and Cs orbitals. Interestingly, despite their structural similarity the Cs aluminyl enables C-H bond activation of benzene, but not the Rb aluminyl reflecting the importance of the alkali metal in these heterobimetallic systems.

KW - Rubidium

KW - caesium

KW - aluminyls

KW - C–H bond activation

KW - Benzene activation

KW - heterobimetallic

UR - https://www.scopus.com/pages/publications/85123901632

U2 - 10.1039/d1cc05379e

DO - 10.1039/d1cc05379e

M3 - Article

C2 - 34994367

AN - SCOPUS:85123901632

SN - 1359-7345

VL - 58

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EP - 1393

JO - Chemical Communications

JF - Chemical Communications

IS - 9

ER -

Rubidium and caesium aluminyls: Synthesis, structures and reactivity in C-H bond activation of benzene

Abstract

Keywords

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