Abstract
Palladium-catalyzed cross-coupling reactions belong to the most important transformations for the construction of C–C or C-heteroatom bonds. More recently, the photochemical activation of palladium complexes emerged as a key strategy to leverage palladium catalysis at room temperature beyond the scope of conventional cross-coupling chemistry. Herein, we report on the photoinduced palladium-catalyzed 1,2-difunctionalization reaction of electron-rich olefins. Mechanistic experiments and computational studies reveal that this reaction proceeds via the addition of an alkyl radical, followed by the oxidation of a radical intermediate to access carbocation intermediates, which are inaccessible via classic thermal reaction conditions. The carbocation can then be applied to a variety of secondary C–C or C–N bond-forming reactions. This strategy now allows a general approach toward densely functionalized unsymmetric 1,1-bis(heterocyclyl)alkanes.
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