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Exploitation of Unconventional Electrophiles in Enantioselective Pd(0)-Catalyzed C–H Functionalizations
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Asymmetric metal-catalyzed C–H functionalization is a powerful strategy for the rapid generation of complex target molecules from simple precursors. While aryl (pseudo)halides have been used as electrophilic substrates in enantioselective Pd(0)-catalyzed syntheses of N-heterocycles,
alternative partners for C–H functionalizations remain underexplored. Herein we describe the first application of ketene aminal phosphates as competent electrophiles in a Pd(0)-catalyzed desymmetrization. This transformation allowed the efficient synthesis of chiral isoindolines in a
highly enantioselective fashion. Furthermore, intending to introduce sought-after perfluoroalkyl substituents, we explored intramolecular C–H functionalization of imidoyl chlorides resulting in the asymmetric preparation of previously inaccessible 1H-isoindoles. Tailored chiral
monodentate ligands afforded high levels of enantioinduction in both transformations.
Title: Exploitation of Unconventional Electrophiles in Enantioselective Pd(0)-Catalyzed C–H Functionalizations
Description:
Asymmetric metal-catalyzed C–H functionalization is a powerful strategy for the rapid generation of complex target molecules from simple precursors.
While aryl (pseudo)halides have been used as electrophilic substrates in enantioselective Pd(0)-catalyzed syntheses of N-heterocycles,
alternative partners for C–H functionalizations remain underexplored.
Herein we describe the first application of ketene aminal phosphates as competent electrophiles in a Pd(0)-catalyzed desymmetrization.
This transformation allowed the efficient synthesis of chiral isoindolines in a
highly enantioselective fashion.
Furthermore, intending to introduce sought-after perfluoroalkyl substituents, we explored intramolecular C–H functionalization of imidoyl chlorides resulting in the asymmetric preparation of previously inaccessible 1H-isoindoles.
Tailored chiral
monodentate ligands afforded high levels of enantioinduction in both transformations.
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