Central-to-axial
chirality transfer via C–N single bond
oxidation was first achieved as a versatile and conceptually distinct
strategy to prepare a new family of axially chiral heteroaromatic
biaryl backbones and P,N-ligands (named as Quinoxalinaps) in gram
scale. Two atropisomers of Quinoxalinaps (ee >99%) were readily
accessed
from the same precursor enantiomer by a simple dehydrogenative oxidation
with MnO2 and t-BuOOH under mild conditions.
Phosphine could be introduced into the ligands before or after the
chirality control process. Moreover, these Quinoxalinap P,N-ligands
performed well for both asymmetric reactions of the CuBr-catalyzed
alkyne conjugate addition with up to −94% ee and AgOAc-catalyzed
glycinate imine [3 + 2] annulation with 90% ee, respectively.