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Abstract C(sp 3 )‐rich heterocycles are privileged building blocks for pharmaceuticals and agrochemicals. Therefore, synthetic methods that provide access to novel saturated nitrogen‐containing heterocycles are in high demand. Herein, we report a general synthesis of 1‐azabicyclo2.1.1hexanes (1‐aza‐BCH) via a formal cycloaddition of azabicyclo1.1.0butanes (ABB) with styrenes under photochemical conditions. To overcome the challenging direct single electron reduction of ABBs, we designed a polar‐radical‐polar relay strategy that leverages a fast acid‐mediated ring‐opening of ABBs to form bromoazetidines, which undergo efficient debrominative radical formation to initiate the cycloaddition reaction. The reaction is applicable to a broad range of ABB‐ketones and we demonstrate the 1‐aza‐BCH products can be further functionalized to access larger saturated, conformationally rigid heterocycles.
Zanini et al. (Mon,) studied this question.