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Abstract
Palladium-catalyzed unprecedented atroposelective hydrophosphination of sterically hindered internal alkynes with secondary phosphines has been realized, affording C-N axially chiral trisubstituted olefins (vinylphosphines) in excellent regioselectivity, (E)-selectivity, and enantioselectivity. The axial chirality was constructed via integration of hydrophosphination and dynamic kinetic transformation of the alkynes, with both symmetrical and nonsymmetrical secondary phosphines being applicable.
Supplementary materials
Title
Palladium-Catalyzed Asymmetric Hydrophosphination of Internal Alkynes: Highly Regio- and Stereoselective Construction of Axially Chiral Phosphines
Description
Asymmetric hydrophsophination of -bonds is a particularly important process in that the chiral phosphine products play a significant role as chiral ligands or catalysts. In contrast to the well-investigated asymmetric hydrophoshination of olefins and terminal alkynes that delivers central chirality, synthesis of the large family of axially chiral phosphines remains untouched via catalytic P-H functionalization.
We now report a highly atroposelective Pd-catalyzed hydrophosphination of sterically hindered internal alkynes in regio- and E-specificity, where axially chirality and hydrophosphination are integrated. Both symmetrical and nonsymmetrical secondary phosphines are applicable. In the latter case, additional P-central chirality has been constructed. The resulting axially chiral phosphine are important precursors for further elaborations. This chemistry provides a new avenue to access underexplored chiral open-chain olefins and may provide new insight into atroposelective transformations of alkynes.
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