Insights into the Base‐Stabilized Silylene Nature of the IrSi Bond in Ir(III)–(κ2‐NSi) Complexes with 2‐Quinolone and 2‐Pyridone Type Ligands

Si Bond in Ir(III)–(κ2-NSi) Complexes with 2-Quinolone and 2-Pyridone Type Ligands"/>

Density functional theory calculations (natural bond orbital and quantum theory of atoms in molecules analyses) on Ir–(κ²-NSi) complexes with 2-quinolone and 2-pyridone derived ligands indicate that the bond is best described as a base-stabilized silylene. The silicon environment is the key for determining the nature of the IrSi bond.

A series of Ir–(κ²-NSi) complexes with 2-quinolone type ligands have been prepared and characterized to increase our scope of 16e unsaturated Ir–(κ²-NSi) species to carry out a comprehensive study of the nature of the IrSi bond. Density functional theory calculations with natural bond orbital and quantum theory of atoms in molecules analyses of a range of Ir–silyl(ene) complexes allows the description of the IrSi bond of the examinated complexes as a polarized covalent interaction. The findings of this study also suggest that the most accurate description of this bond in the Ir–(κ²-NSi) complexes is base-stabilized silylene. Investigating the silicon environment has been the key for determining the nature of the IrSi bond. This insight also enables to elucidate the base-stabilized TM–silylene character in other complexes.

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