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Abstract
Selective C–F bond activation through a radical pathway in the presence of multiple C–H bonds remains a formidable challenge, owing to the extraordinarily strong bond strength of the C–F bond. By the aid of density functional theory calculations, we disclose an innovative concerted electron-fluoride transfer mechanism, harnessing the unique reactivity of Lewis base-boryl radicals to selectively activate the resilient C-F bonds in fluoroalkanes. This enables the direct abstraction of a fluorine atom and subsequent generation of an alkyl radical, thus expanding the boundaries of halogen atom transfer reactions and adding a new strategy to the C-F bond activation toolkit.
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