Coordination of a Phosphine-Tethered Aminoborane to Group 10 Metals

MR Tiddens; BT Kappé; TJ Smak; M Lutz; ME Moret

doi:10.1002/chem.202400666

Coordination of a Phosphine-Tethered Aminoborane to Group 10 Metals

MR Tiddens, BT Kappé, TJ Smak, M Lutz, ME Moret^*

^*Corresponding author for this work

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

Abstract

While π-complexes of C=C bonds are ubiquitous in organometallic chemistry, analogous complexes of the isoelectronic but strongly polarized B=N double bond of aminoboranes are extremely scarce. To address this gap, a diphosphine-aminoborane ligand (PhDPBAiPr) is introduced and its coordination with group 10 metals is investigated. The B=N bond does not coordinate to the metal in Pt(0) and Pd(II) complexes. In contrast, side-on coordination of the B=N bond is observed in the Ni(0) complex (PhDPBAiPr)Ni(NCPh), and the X-ray crystal structure reveals B−N bond elongation compared to the free ligand. The choice of co-ligand strongly influences the presence or absence of side-on coordination at Ni(0) as evidenced by NMR spectroscopy. While the B=N π-complex is geometrically similar to C=C analogues, a bonding analysis reveals that the interaction of the B=N motif with the electron-rich Ni(0) center is best described as 3c4e hyperbond, in which Ni and N are competing for the empty orbital on B.

Original language	English
Article number	e202400666
Number of pages	8
Journal	Chemistry-A European Journal
Volume	30
Issue number	32
Early online date	8 May 2024
DOIs	https://doi.org/10.1002/chem.202400666
Publication status	Published - 6 Jun 2024

Bibliographical note

Publisher Copyright:
© 2024 The Authors. Chemistry - A European Journal published by Wiley-VCH GmbH.

Funding

This project has received funding from the European Research Council (ERC) under the European Union's Horizon 2020 research and innovation program (grant agreement No\u2005715060). The X\u2010ray diffractometer has been financed by the Netherlands Organization for Scientific Research (NWO). This work made use of the Dutch national e\u2010infrastructure with the support of the SURF Cooperative using grant no.\u2005EINF\u20103520. We thank Dr. Johann Jastrzebski for assistance with NMR analysis.

Funders	Funder number
SURF
European Research Council
Nederlandse Organisatie voor Wetenschappelijk Onderzoek
Horizon 2020	715060
Horizon 2020

Keywords

Acceptor ligands
Bonding Analysis
aminoboranes
group 10 metals
π-ligands

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Chemistry A European J - 2024 - Tiddens - Coordination of a Phosphine‐Tethered Aminoborane to Group 10 MetalsFinal published version, 4.11 MBLicence: CC BY

Cite this

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abstract = "While π-complexes of C=C bonds are ubiquitous in organometallic chemistry, analogous complexes of the isoelectronic but strongly polarized B=N double bond of aminoboranes are extremely scarce. To address this gap, a diphosphine-aminoborane ligand (PhDPBAiPr) is introduced and its coordination with group 10 metals is investigated. The B=N bond does not coordinate to the metal in Pt(0) and Pd(II) complexes. In contrast, side-on coordination of the B=N bond is observed in the Ni(0) complex (PhDPBAiPr)Ni(NCPh), and the X-ray crystal structure reveals B−N bond elongation compared to the free ligand. The choice of co-ligand strongly influences the presence or absence of side-on coordination at Ni(0) as evidenced by NMR spectroscopy. While the B=N π-complex is geometrically similar to C=C analogues, a bonding analysis reveals that the interaction of the B=N motif with the electron-rich Ni(0) center is best described as 3c4e hyperbond, in which Ni and N are competing for the empty orbital on B.",

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AU - Kappé, BT

AU - Smak, TJ

AU - Lutz, M

AU - Moret, ME

PY - 2024/6/6

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N2 - While π-complexes of C=C bonds are ubiquitous in organometallic chemistry, analogous complexes of the isoelectronic but strongly polarized B=N double bond of aminoboranes are extremely scarce. To address this gap, a diphosphine-aminoborane ligand (PhDPBAiPr) is introduced and its coordination with group 10 metals is investigated. The B=N bond does not coordinate to the metal in Pt(0) and Pd(II) complexes. In contrast, side-on coordination of the B=N bond is observed in the Ni(0) complex (PhDPBAiPr)Ni(NCPh), and the X-ray crystal structure reveals B−N bond elongation compared to the free ligand. The choice of co-ligand strongly influences the presence or absence of side-on coordination at Ni(0) as evidenced by NMR spectroscopy. While the B=N π-complex is geometrically similar to C=C analogues, a bonding analysis reveals that the interaction of the B=N motif with the electron-rich Ni(0) center is best described as 3c4e hyperbond, in which Ni and N are competing for the empty orbital on B.

AB - While π-complexes of C=C bonds are ubiquitous in organometallic chemistry, analogous complexes of the isoelectronic but strongly polarized B=N double bond of aminoboranes are extremely scarce. To address this gap, a diphosphine-aminoborane ligand (PhDPBAiPr) is introduced and its coordination with group 10 metals is investigated. The B=N bond does not coordinate to the metal in Pt(0) and Pd(II) complexes. In contrast, side-on coordination of the B=N bond is observed in the Ni(0) complex (PhDPBAiPr)Ni(NCPh), and the X-ray crystal structure reveals B−N bond elongation compared to the free ligand. The choice of co-ligand strongly influences the presence or absence of side-on coordination at Ni(0) as evidenced by NMR spectroscopy. While the B=N π-complex is geometrically similar to C=C analogues, a bonding analysis reveals that the interaction of the B=N motif with the electron-rich Ni(0) center is best described as 3c4e hyperbond, in which Ni and N are competing for the empty orbital on B.

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Coordination of a Phosphine-Tethered Aminoborane to Group 10 Metals

Abstract

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