Metal Alkyls with Alkylidynic Metal‐Carbon Bond Character: Key Electronic Structures in Alkane Metathesis Precatalysts

Gordon, Christopher P.; Copéret, Christophe

doi:10.1002/ange.201915557

Angewandte Chemie

2020

DOI: 10.1002/ange.201915557

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Metal Alkyls with Alkylidynic Metal‐Carbon Bond Character: Key Electronic Structures in Alkane Metathesis Precatalysts

Christopher P. Gordon

Christophe Copéret

Abstract: The homologation of alkanes via alkane metathesis is catalyzed at low temperatures (150 °C) by the silica‐supported species (≡SiO)WMe5 and (≡SiO)TaMe4, while (≡SiO)TaMe3Cp* is inactive. The contrasting reactivity is paralleled by differences in the 13C NMR signature; the former display significantly more deshielded isotropic chemical shifts (δiso) and almost axially symmetric chemical shift tensors, similar to what is observed in their molecular precursors TaMe5 and WMe6. Analysis of the chemical shift tensors… Show more

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Triel Bonds with Methyl Groups as Electron Donors. A Pentacoordinate Carbon Atom

Wang,

Cheng,

et al. 2024

ChemPhysChem

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The triel bond (TrB) formed between Be(CH3)2/Mg(CH3)2 and TrX3 (Tr = B, Al, and Ga; X = H, F, Cl, Br, and I) is investigated via the MP2/aug‐cc‐pVTZ(PP) quantum chemical protocol. The C atoms of the methyl groups in M(CH3)2 are characterized by a negative electrostatic potential and act as an electron donor in a triel bond with the π‐hole above the Tr atom of planar TrX3. The interaction energy spans a wide range between 2 and 69 kcal/mol. Mg(CH3)2 forms a stronger TrB than does Be(CH3)2, which comports with the more negative electrostatic potential on its methyl groups. Some of the complexes involving Mg display a high degree of transfer of the methyl group from Mg to Tr, which is accompanied by an inversion of the bridging methyl and a sizable pyramidalization of the TrX3 unit. The geometries of these complexes have the properties of the long sought pentacoordinate C which has eluded identification and characterization in the past.

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Triel Bonds with Methyl Groups as Electron Donors. A Pentacoordinate Carbon Atom

Wang,

Cheng,

et al. 2024

ChemPhysChem

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show abstract

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Metal Alkyls with Alkylidynic Metal‐Carbon Bond Character: Key Electronic Structures in Alkane Metathesis Precatalysts

Cited by 1 publication

References 51 publications

Triel Bonds with Methyl Groups as Electron Donors. A Pentacoordinate Carbon Atom

Triel Bonds with Methyl Groups as Electron Donors. A Pentacoordinate Carbon Atom

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