Aluminium‐Catalyzed C(sp)−H Borylation of Alkynes

Dominic R. Willcox; Daniel M. De Rosa; Jack Howley; Abigail Levy; Alan Steven; Gary S. Nichol; Carole A. Morrison; Michael J. Cowley; Stephen P. Thomas

doi:10.1002/anie.202106216

Aluminium‐Catalyzed C(sp)−H Borylation of Alkynes

Dominic R. Willcox, Daniel M. De Rosa, Jack Howley, Abigail Levy, Alan Steven, Gary S. Nichol, Carole A. Morrison, Michael J. Cowley, Stephen P. Thomas

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Abstract

Historically used in stoichiometric hydroalumination chemistry, recent advances have transformed aluminium hydrides into versatile catalysts for the hydroboration of unsaturated multiple bonds. This catalytic ability is founded on the defining reactivity of aluminium hydrides with alkynes and alkenes: 1,2‐hydroalumination of the unsaturated π‐system. This manuscript reports the aluminium hydride catalyzed dehydroborylation of terminal alkynes. A tethered intramolecular amine ligand controls reactivity at the aluminium hydride centre, switching off hydroalumination and instead enabling selective reactions at the alkyne C−H σ‐bond. Chemoselective C−H borylation was observed across a series of aryl‐ and alkyl‐substituted alkynes (21 examples). On the basis of kinetic and density functional theory studies, a mechanism in which C−H borylation proceeds by σ‐bond metathesis between pinacolborane (HBpin) and alkynyl aluminium intermediates is proposed.

Original language	English
Pages (from-to)	20672-20677
Journal	Angewandte Chemie International Edition
Volume	60
Issue number	38
DOIs	https://doi.org/10.1002/anie.202106216
Publication status	Published - 13 Sept 2021

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title = "Aluminium‐Catalyzed C(sp)−H Borylation of Alkynes",

abstract = "Historically used in stoichiometric hydroalumination chemistry, recent advances have transformed aluminium hydrides into versatile catalysts for the hydroboration of unsaturated multiple bonds. This catalytic ability is founded on the defining reactivity of aluminium hydrides with alkynes and alkenes: 1,2‐hydroalumination of the unsaturated π‐system. This manuscript reports the aluminium hydride catalyzed dehydroborylation of terminal alkynes. A tethered intramolecular amine ligand controls reactivity at the aluminium hydride centre, switching off hydroalumination and instead enabling selective reactions at the alkyne C−H σ‐bond. Chemoselective C−H borylation was observed across a series of aryl‐ and alkyl‐substituted alkynes (21 examples). On the basis of kinetic and density functional theory studies, a mechanism in which C−H borylation proceeds by σ‐bond metathesis between pinacolborane (HBpin) and alkynyl aluminium intermediates is proposed.",

author = "Willcox, \{Dominic R.\} and \{De Rosa\}, \{Daniel M.\} and Jack Howley and Abigail Levy and Alan Steven and Nichol, \{Gary S.\} and Morrison, \{Carole A.\} and Cowley, \{Michael J.\} and Thomas, \{Stephen P.\}",

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month = sep,

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doi = "10.1002/anie.202106216",

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T1 - Aluminium‐Catalyzed C(sp)−H Borylation of Alkynes

AU - Willcox, Dominic R.

AU - De Rosa, Daniel M.

AU - Howley, Jack

AU - Levy, Abigail

AU - Steven, Alan

AU - Nichol, Gary S.

AU - Morrison, Carole A.

AU - Cowley, Michael J.

AU - Thomas, Stephen P.

PY - 2021/9/13

Y1 - 2021/9/13

N2 - Historically used in stoichiometric hydroalumination chemistry, recent advances have transformed aluminium hydrides into versatile catalysts for the hydroboration of unsaturated multiple bonds. This catalytic ability is founded on the defining reactivity of aluminium hydrides with alkynes and alkenes: 1,2‐hydroalumination of the unsaturated π‐system. This manuscript reports the aluminium hydride catalyzed dehydroborylation of terminal alkynes. A tethered intramolecular amine ligand controls reactivity at the aluminium hydride centre, switching off hydroalumination and instead enabling selective reactions at the alkyne C−H σ‐bond. Chemoselective C−H borylation was observed across a series of aryl‐ and alkyl‐substituted alkynes (21 examples). On the basis of kinetic and density functional theory studies, a mechanism in which C−H borylation proceeds by σ‐bond metathesis between pinacolborane (HBpin) and alkynyl aluminium intermediates is proposed.

AB - Historically used in stoichiometric hydroalumination chemistry, recent advances have transformed aluminium hydrides into versatile catalysts for the hydroboration of unsaturated multiple bonds. This catalytic ability is founded on the defining reactivity of aluminium hydrides with alkynes and alkenes: 1,2‐hydroalumination of the unsaturated π‐system. This manuscript reports the aluminium hydride catalyzed dehydroborylation of terminal alkynes. A tethered intramolecular amine ligand controls reactivity at the aluminium hydride centre, switching off hydroalumination and instead enabling selective reactions at the alkyne C−H σ‐bond. Chemoselective C−H borylation was observed across a series of aryl‐ and alkyl‐substituted alkynes (21 examples). On the basis of kinetic and density functional theory studies, a mechanism in which C−H borylation proceeds by σ‐bond metathesis between pinacolborane (HBpin) and alkynyl aluminium intermediates is proposed.

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DO - 10.1002/anie.202106216

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JO - Angewandte Chemie International Edition

JF - Angewandte Chemie International Edition

IS - 38

ER -

Aluminium‐Catalyzed C(sp)−H Borylation of Alkynes

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