An aerobic oxidative cyanation for the synthesis of α-aminonitriles was reported. The formation of C(sp)-CN bonds was achieved under a metal-free condition by utilizing azobis(isobutyronitrile) as a sole organic cyanide source with the combination of pivalic acid and sodium acetate as additives.
Although
direct acetoxylation and cyclization of alkylamide have
been extensively reported, investigation of the structural influence
of directing groups on selectivity is limited. Pd-catalyzed 2-methoxyiminoacyl
(MIA) assisted γ-acetoxylation of alkylamides has been developed.
Further DFT studies have demonstrated that the directing groups have
a significant influence on the reductive elimination step. The strong
electron-donating effect of the OMe group in MIA leads to the preferential
formation of a five-membered cyclopalladium (OAc–Pd-C) complex,
which favors the acetoxylation pathway.
The direct acetoxylation of substituted benzylamines has been accomplished through methoxyiminoacyl (MIA)‐mediated Pd‐catalyzed C−H functionalization. A diverse array of phenylalanine substrates is amenable to this protocol, providing acetoxylation benzylamine derivatives with good to high efficiency. Computational results revealed that HOAc enhanced the stability of Pd−O bond, which obviously accelerate the reductive elimination step of the acetoxylation process.
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