ABSTRACT
In this study, we found that the sterically bulky α-hydroxycarboxamide moiety is a suitable framework for protecting the boronyl group of boron reagents during aminations. Condensation of α-hydroxycarboxamide with ArB(OH)2 produced aryloxazaborolidinone (ArOxB). The reactivity of the C-B bond in ArOxB is easily controlled by the steric and weak electronic effects of the backbone. H2N-(or Br-)ArOxB underwent Chan-Evans-Lam (C-E-L) or Buchwald-Hartwig (B-H) amination with retaining the C-B bond. On the other hand, direct C-E-L amination of ArOxB was also possible in an oxidative atmosphere, in which the C-B bond was activated by CuII species. Our methodology is effective for the precise synthesis of two or more arylamino group substituted arenes.
ABSTRACT
It was demonstrated that α-hydroxycarboxamide is an excellent boron-protecting group. The reaction between α-hydroxycarboxamide and organoboronic acids produced stable oxazaborolidinones (OxBs), in which the sp 2 ${{_{{\rm sp}{^{2}}}}}$ -hybridized boron atom was sterically protected by α-hydroxycarboxamide. The alkyl groups of the α-hydroxycarboxamide moiety can dynamically cover the p-orbital of the sp 2 ${{_{{\rm sp}{^{2}}}}}$ -hybridized boron center, creating a small space around the boron atom, allowing for smooth transmetalation by a Pd catalyst and easy deprotection by water. This protecting phenomenon is effective for readily purification, Suzuki-Miyaura coupling reactions with unstable boronic acids and iterative cross-couplings.
