Abstract
Abstract Phosphine imides are ubiquitous nucleophiles/Lewis bases in modern organic chemistry. The introduction of unexplored substituents on the phosphine imidoyl nitrogen and/or phosphorus atoms should facilitate the discovery of unprecedented utility for phosphine imides. Herein, we have designed and prepared a novel class of phosphine imides known as N-borane-substituted cyclic phosphine imides (BCPIs). Experimental and theoretical analyses of the electronic structure of BCPIs demonstrate the existence of substantial negative hyperconjugation between the nitrogen and the phosphorus atoms. Given a characteristic nucleophilic/Lewis basic reactivity of BCPIs, we demonstrate the spontaneous heterolysis of a B–Cl bond in a BCPI-coordinated chloroborane, suggesting that such process is a plausible key step in the Lewis acid-promoted generation of borenium species from chloroboranes, although it has been previously considered unlikely.
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