Synthesis of -Difluorocyclobutanes: Organolanthanum Enabled Synthesis and Divergent Catalytic Functionalization of -Difluorocyclobutanols.

Fluorinated cycloalkyl motifs continue to receive intense interest in medicinal chemistry due to their potential to modulate physicochemical properties. In recent years, this interest has extended to -difluorocyclobutanes as small, polar, yet lipophilic moieties. However, strategies to access -difluorocyclobutanes remain limited, presenting opportunities for the development of new synthetic methods. Here, we report the synthesis and divergent functionalization of -difluorocyclobutanols to generate a diverse range of 1,1-disubstituted-3,3-difluorocyclobutanes. The use of organolanthanum reagents is crucial to achieve the addition of carbon nucleophiles to commercially available difluorocyclobutanone to avoid the undesired elimination of HF by controlling nucleophile basicity. The generated difluorocyclobutanols enable functionalization through carbocation and radical intermediates, providing diverse 1,1-disubstituted difluorocyclobutanes and expediting access to new design options for medicinal or materials chemistry.