26076-84-6Relevant articles and documents
Palladium-catalyzed aerobic oxidative coupling of allylic alcohols with anilines in the synthesis of nitrogen heterocycles
Kumar, Gangam Srikanth,Singh, Diksha,Kumar, Manish,Kapur, Manmohan
, p. 3941 - 3951 (2018/04/14)
We report herein an unprecedented and expedient Pd-catalyzed oxidative coupling of allyl alcohols with anilines to afford β-amino ketones which are converted into substituted quinolines in a one-pot fashion. The exclusive preference for N-alkylation over N-allylation makes this approach unique when compared to those reported in literature. Detailed mechanistic investigations reveal that the conjugate addition pathway was the predominant one over the allylic amination pathway. The notable aspects of the present approach are the use of readily available, bench-stable allyl alcohols and molecular oxygen as the terminal oxidant, in the process dispensing the need for unstable and costly enones. Further, we explored the synthetic utility of β-amino ketones through an intramolecular α-arylation methodology and a one-pot domino annulation, thereby providing rapid access to indolines and quinolines.
Highly efficient Michael addition reaction of amines catalyzed by silica-supported aluminum chloride
Saidi, Mohammad R.,Pourshojaei, Yaghoub,Aryanasab, Fezzeh
experimental part, p. 1109 - 1119 (2009/09/08)
Aliphatic and aromatic amines undergo smooth nucleophilic addition to α,β-unsaturated compounds in the presence of a catalytic amount of silica-supported aluminum chloride at 60°C and under solvent-free conditions to produce the corresponding β-amino compounds in excellent yields. This method is simple and convenient and works efficiently under mild conditions. This catalyst can used again without losing its activity three times. Copyright Taylor & Francis Group, LLC.
