Defluorinative manipulation of polyfluorinated molecules has shown great promise due to its granting of synthetic versatility to inert C-F bonds. The development of chemo-, stereo- and regioselective strategies to realize highly efficient formation of either the linear/branched or E/Z products from gem-difluorocyclopropanes (gem-F2 CPs) is a challenging task. Herein, we have realized palladium/NHC-catalyzed fluoroallylation/annulation of hydrazones with gem-F2 CPs that incorporate the hydrazone N2 moiety into the products. The thermodynamically unstable fluorinated E-allylation products with aryl ketone hydrazones were obtained for the first time, while the di-alkyl ketone hydrazones yielded the monofluorinated products with branched selectivity under similar reaction conditions. With aldehyde hydrazones, two kinds of pyrazoles were obtained via a defluorinative allylation/annulation cascade, in which different carbon atoms of gem-F2 CPs could be incorporated into the pyrazole rings regiospecifically. DFT calculations revealed that the divergent selectivity was kinetically controlled and the final C-C bond formation proceeded through a 7-membered TS.
Keywords: C−F Bond Cleavage; Gem-Difluorocyclopropane; Hydrazone; Pyrazole; Regioselectivity.
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