Addition and Oxidation Reactivity of a Pentacoordinate Nickelacyclobutane

María L.G. Sansores-Paredes; Martin Lutz; Marc Etienne Moret

doi:10.1002/chem.202404133

Addition and Oxidation Reactivity of a Pentacoordinate Nickelacyclobutane

María L.G. Sansores-Paredes, Martin Lutz, Marc Etienne Moret^*

^*Corresponding author for this work

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

Abstract

Nickelacyclobutanes are reactive intermediates in catalytic cycles including cyclopropanation and insertion reactions. The stoichiometric study of these intermediates has shown that their reactivity is highly influenced by the coordination environment of the nickel center. A pentacoordinated nickelacyclobutane embedded in a diphosphine pincer ligand has been shown to selectively undergo various reactions with exogenous ligands, including [2+2] cycloreversion and carbene transfer to an isocyanide. Herein, we investigate the reactivity of the pentacoordinated nickelacyclobutane towards addition and oxidation reactions. Addition reactions lead to ring-opening to form stable square planar Ni(II) compounds, while metal oxidation enhances [2+2] cycloreversion. DFT calculations are used to shed light on the different mechanisms.

Original language	English
Article number	e202404133
Journal	Chemistry - A European Journal
Volume	31
Issue number	14
Early online date	23 Dec 2024
DOIs	https://doi.org/10.1002/chem.202404133
Publication status	Published - 6 Mar 2025

Bibliographical note

Publisher Copyright:
© 2024 The Author(s). Chemistry - A European Journal published by Wiley-VCH GmbH.

Keywords

Bond activation
Nickelacyclobutane
Organometallic reaction mechanisms
Protonolysis
σ-bond metathesis

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Chemistry A European J - 2024 - Sansores‐Paredes - Addition and Oxidation Reactivity of a PentacoordinateFinal published version, 5.72 MBLicence: CC BY

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title = "Addition and Oxidation Reactivity of a Pentacoordinate Nickelacyclobutane",

abstract = "Nickelacyclobutanes are reactive intermediates in catalytic cycles including cyclopropanation and insertion reactions. The stoichiometric study of these intermediates has shown that their reactivity is highly influenced by the coordination environment of the nickel center. A pentacoordinated nickelacyclobutane embedded in a diphosphine pincer ligand has been shown to selectively undergo various reactions with exogenous ligands, including [2+2] cycloreversion and carbene transfer to an isocyanide. Herein, we investigate the reactivity of the pentacoordinated nickelacyclobutane towards addition and oxidation reactions. Addition reactions lead to ring-opening to form stable square planar Ni(II) compounds, while metal oxidation enhances [2+2] cycloreversion. DFT calculations are used to shed light on the different mechanisms.",

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author = "Sansores-Paredes, {Mar{\'i}a L.G.} and Martin Lutz and Moret, {Marc Etienne}",

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AU - Sansores-Paredes, María L.G.

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AU - Moret, Marc Etienne

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Y1 - 2025/3/6

N2 - Nickelacyclobutanes are reactive intermediates in catalytic cycles including cyclopropanation and insertion reactions. The stoichiometric study of these intermediates has shown that their reactivity is highly influenced by the coordination environment of the nickel center. A pentacoordinated nickelacyclobutane embedded in a diphosphine pincer ligand has been shown to selectively undergo various reactions with exogenous ligands, including [2+2] cycloreversion and carbene transfer to an isocyanide. Herein, we investigate the reactivity of the pentacoordinated nickelacyclobutane towards addition and oxidation reactions. Addition reactions lead to ring-opening to form stable square planar Ni(II) compounds, while metal oxidation enhances [2+2] cycloreversion. DFT calculations are used to shed light on the different mechanisms.

AB - Nickelacyclobutanes are reactive intermediates in catalytic cycles including cyclopropanation and insertion reactions. The stoichiometric study of these intermediates has shown that their reactivity is highly influenced by the coordination environment of the nickel center. A pentacoordinated nickelacyclobutane embedded in a diphosphine pincer ligand has been shown to selectively undergo various reactions with exogenous ligands, including [2+2] cycloreversion and carbene transfer to an isocyanide. Herein, we investigate the reactivity of the pentacoordinated nickelacyclobutane towards addition and oxidation reactions. Addition reactions lead to ring-opening to form stable square planar Ni(II) compounds, while metal oxidation enhances [2+2] cycloreversion. DFT calculations are used to shed light on the different mechanisms.

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KW - Organometallic reaction mechanisms

KW - Protonolysis

KW - σ-bond metathesis

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Addition and Oxidation Reactivity of a Pentacoordinate Nickelacyclobutane

Abstract

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Keywords

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