128502-28-3Relevant academic research and scientific papers
Direct Allylic Amination of Allylic Alcohol Catalyzed by Palladium Complex Bearing Phosphine-Borane Ligand
Hirata, Goki,Satomura, Hideaki,Kumagae, Hidenobu,Shimizu, Aika,Onodera, Gen,Kimura, Masanari
supporting information, p. 6148 - 6151 (2017/11/24)
The direct electrophilic, nucleophilic, and amphiphilic allylations of allylic alcohol by use of a palladium catalyst and organometallic reagents such as organoborane and organozinc has been developed. The phosphine-borane compound works as the effective ligand for palladium-catalyzed direct allylic amination of allylic alcohol. Thus, with secondary amines, the reaction was completed in only 1 h, even at room temperature.
Palladium-Catalyzed Aminocarbonylation of Allylic Alcohols
Li, Haoquan,Neumann, Helfried,Beller, Matthias
supporting information, p. 10050 - 10056 (2016/07/19)
A benign and efficient palladium-catalyzed aminocarbonylation reaction of allylic alcohols is presented. The generality of this novel process is demonstrated by the synthesis of β,γ-unsaturated amides including aliphatic, cinnamyl, and terpene derivatives. The choice of ligand is crucial for optimal carbonylation processes: Whereas in most cases the combination of PdCl2with Xantphos (L6) gave best results, sterically hindered substrates performed better in the presence of simple triphenylphosphine (L10), and primary anilines gave the best results using cataCXium PCy (L8). The reactivity of the respective catalyst system is significantly enhanced by addition of small amounts of water. Mechanistic studies and control experiments revealed a tandem allylic alcohol amination/C?N bond carbonylation reaction sequence.
Hydrogen-bond-assisted activation of allylic alcohols for palladium-catalyzed coupling reactions
Gumrukcu, Yasemin,Debruin, Bas,Reek, Joost N. H.
, p. 890 - 896 (2014/03/21)
We report direct activation of allylic alcohols using a hydrogen-bond-assisted palladium catalyst and use this for alkylation and amination reactions. The novel catalyst comprises a palladium complex based on a functionalized monodentate phosphoramidite ligand in combination with urea additives and affords linear alkylated and aminated allylic products selectively. Detailed kinetic analysis show that oxidative addition of the allyl alcohol is the rate-determining step, which is facilitated by hydrogen bonds between the alcohol, the ligand functional group, and the additional urea additive. Hydrogen Bond Rule(s): Direct activation of allylic alcohols and subsequent alkylation and amination reactions are reported. The new catalyst is based on functionalized palladium and phosphoramidite ligands to allow hydrogen bond-assisted activation. Kinetic data are in line with this mechanism as the oxidative addition is the rate-determining step.
Simple and convenient approach for synthesis of tetrahydroquinoline derivatives and studies on aza-Cope rearrangement
Rao Lingam, V.S. Prasada,Thomas, Abraham,Mukkanti, Khagga,Gopalan, Balasubramanian
experimental part, p. 1809 - 1828 (2011/06/20)
A simple and novel synthesis of 1,2,3,4-tetrahydroquinoline derivatives by polyphosphoric acid-assisted reaction of N-aryl allyl anilines prepared from anilines has been reported. The generality and scope of the approach has been demonstrated by extending it to the synthesis of 1,2,5,6-tetrahydro-4H- pyrrolo[3,2,1-ij]quinoline (lilolidine) and 2,3,6,7-tetrahydro-1H,5H-pyrido[3,2, 1-ij]quinoline (julolidine). Further, Lewis acid- mediated aza-Cope rearrangement of various N-aryl allyl anilines has been demonstrated.
