A Tamed Intermediate: The Pivotal Role of Cp* in Hypercoordinate Boron Cation Catalysis
Journal
Organometallics
Date Issued
2024-01-01
Author(s)
Abstract
Compared to borenium ions, the synthetic application of its dicoordinate variant, borinium ion, remains much less explored due to the facile decomposition of borinium ions. Previously, we showed that [Cp*B-Mes]+ ([1]+) can be viewed as a masked borinium ion with great potential in catalysis. In this study, we further demonstrate that [1]+ serves as a precatalyst in catalytic cyanosilylation of ketones. When treated with TMSCN, [1]+ transforms into a TMSCN coordinated boronium ion [Cp*BMes(TMSCN)2]+ ([4]+), which is highly efficient in catalyzing cyanosilylation. However, such reagent-coordinated boronium ion cannot be accomplished in the absence of Cp* ligand. Experimental and computational investigations revealed that the Cp* ligand could mitigate the Lewis acidity of the putative borenium ion, [Cp*BMes(TMSCN)]+ ([5]+), via the coordination of Cp* to boron in a η2-coordination fashion. Such a bonding interaction significantly reduces the positive charge on the boron atom [5]+, preventing the decomposition of the critical intermediate.
Type
journal article