The Search for Enhanced σ-Donor Ligands to Stabilize Boron-Boron Multiple Bonds

Daniel E. Trujillo-González; Gerardo González-García; Trevor A. Hamlin; F. Matthias Bickelhaupt; Holger Braunschweig; J. Oscar C. Jiménez-Halla; Miquel Solà

doi:10.1002/ejic.202200767

The Search for Enhanced σ-Donor Ligands to Stabilize Boron-Boron Multiple Bonds

Daniel E. Trujillo-González, Gerardo González-García, Trevor A. Hamlin, F. Matthias Bickelhaupt, Holger Braunschweig, J. Oscar C. Jiménez-Halla, Miquel Solà

Chemical Sciences

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

4 Citations (Scopus)

Abstract

Boron-boron multiple bonds, such as those found in diborenes and diborynes, are typically stabilized by σ-donor ligands that furnish electron density to these otherwise electron-deficient species. These compounds are not only of fundamental importance in the study of chemical bonding, but can also activate small molecules in a chemistry reminiscent of that carried out by transition metals. In the pursuit of designing new and improved σ-donor ligands to stabilize diborenes and diborynes suitable to activate small molecules, we performed density functional calculations to evaluate the Lewis basicity of a series of σ-donor ligands. For this evaluation, we analysed the interaction between the boranes and the σ-donor ligands in model systems L→BX₃ (X=F and Me) using energy decomposition analyses. We found that electronic bond energies of the L→BX₃ adducts correlate well with the ionization energies of the ligands and that ligands with high or medium basicity stabilize diborynes better than ligands with low basicity. We also learnt that beryllium-based ligands are promising since they are able to stabilize L→B≡B←L diborynes without significantly reducing the triple bond character of the B≡B bond.

Original language	English
Article number	e202200767
Journal	European Journal of Inorganic Chemistry
Volume	26
Issue number	9
DOIs	https://doi.org/10.1002/ejic.202200767
Publication status	Published - 17 Mar 2023

Keywords

Lewis acids
Lewis bases
boron
density functional theory
metallomimetic compounds
multiple bonds

ASJC Scopus subject areas

Inorganic Chemistry

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10.1002/ejic.202200767

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title = "The Search for Enhanced σ-Donor Ligands to Stabilize Boron-Boron Multiple Bonds",

abstract = "Boron-boron multiple bonds, such as those found in diborenes and diborynes, are typically stabilized by σ-donor ligands that furnish electron density to these otherwise electron-deficient species. These compounds are not only of fundamental importance in the study of chemical bonding, but can also activate small molecules in a chemistry reminiscent of that carried out by transition metals. In the pursuit of designing new and improved σ-donor ligands to stabilize diborenes and diborynes suitable to activate small molecules, we performed density functional calculations to evaluate the Lewis basicity of a series of σ-donor ligands. For this evaluation, we analysed the interaction between the boranes and the σ-donor ligands in model systems L→BX3 (X=F and Me) using energy decomposition analyses. We found that electronic bond energies of the L→BX3 adducts correlate well with the ionization energies of the ligands and that ligands with high or medium basicity stabilize diborynes better than ligands with low basicity. We also learnt that beryllium-based ligands are promising since they are able to stabilize L→B≡B←L diborynes without significantly reducing the triple bond character of the B≡B bond.",

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AU - Trujillo-González, Daniel E.

AU - González-García, Gerardo

AU - Hamlin, Trevor A.

AU - Bickelhaupt, F. Matthias

AU - Braunschweig, Holger

AU - Jiménez-Halla, J. Oscar C.

AU - Solà, Miquel

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N2 - Boron-boron multiple bonds, such as those found in diborenes and diborynes, are typically stabilized by σ-donor ligands that furnish electron density to these otherwise electron-deficient species. These compounds are not only of fundamental importance in the study of chemical bonding, but can also activate small molecules in a chemistry reminiscent of that carried out by transition metals. In the pursuit of designing new and improved σ-donor ligands to stabilize diborenes and diborynes suitable to activate small molecules, we performed density functional calculations to evaluate the Lewis basicity of a series of σ-donor ligands. For this evaluation, we analysed the interaction between the boranes and the σ-donor ligands in model systems L→BX3 (X=F and Me) using energy decomposition analyses. We found that electronic bond energies of the L→BX3 adducts correlate well with the ionization energies of the ligands and that ligands with high or medium basicity stabilize diborynes better than ligands with low basicity. We also learnt that beryllium-based ligands are promising since they are able to stabilize L→B≡B←L diborynes without significantly reducing the triple bond character of the B≡B bond.

AB - Boron-boron multiple bonds, such as those found in diborenes and diborynes, are typically stabilized by σ-donor ligands that furnish electron density to these otherwise electron-deficient species. These compounds are not only of fundamental importance in the study of chemical bonding, but can also activate small molecules in a chemistry reminiscent of that carried out by transition metals. In the pursuit of designing new and improved σ-donor ligands to stabilize diborenes and diborynes suitable to activate small molecules, we performed density functional calculations to evaluate the Lewis basicity of a series of σ-donor ligands. For this evaluation, we analysed the interaction between the boranes and the σ-donor ligands in model systems L→BX3 (X=F and Me) using energy decomposition analyses. We found that electronic bond energies of the L→BX3 adducts correlate well with the ionization energies of the ligands and that ligands with high or medium basicity stabilize diborynes better than ligands with low basicity. We also learnt that beryllium-based ligands are promising since they are able to stabilize L→B≡B←L diborynes without significantly reducing the triple bond character of the B≡B bond.

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KW - boron

KW - density functional theory

KW - metallomimetic compounds

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The Search for Enhanced σ-Donor Ligands to Stabilize Boron-Boron Multiple Bonds

Abstract

Keywords

ASJC Scopus subject areas

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