41208-52-0Relevant articles and documents
Rhodium catalyzed selective hydroaminomethylation of biorenewable eugenol under aqueous biphasic condition
Jagtap, Samadhan A.,Gowalkar, Shilpa P.,Monflier, Eric,Ponchel, Anne,Bhanage, Bhalchandra M.
, p. 108 - 116 (2018/04/17)
This work reports a highly regioselective hydroaminomethylation of eugenol, anethole and estragole with piperidine in aqueous medium. This catalytic system was composed of rhodium complexes stabilized by trisulfonated triphenylphosphine (TPPTS) and of a native or chemically modified cyclodextrins. Various cyclodextrins such as α-cyclodextrins (α-CD), β-cyclodextrin (β-CD), γ-cyclodextrin (γ-CD), 2-hydroxy-propyl β-cyclodextrin (hp-β-CD) and RAndomly MEthylated β-cyclodextrin (RAME-β-CD) have been tested. The effect of different parameters such as syngas pressure, time, temperature, catalyst precursor/loading and the ratio of Metal/Ligand/Cyclodextrin were also investigated. The addition of cyclodextrins as a mass transfer agent remarkably increased the rate reaction and the selectivity of linear amines, specially in the case of RAME-β-CD. So, the Rh/TPPTS/RAME-β-CD as a catalyst exhibited high conversion (92%) and selectivity (79.2%) towards the linear amine as major product under mild conditions. Finally, the catalytic system was recycled up to five times without a significant loss in activity and selectivity.
Iron-catalyzed oxyfunctionalization of aliphatic amines at remote benzylic C-H sites
Mbofana, Curren T.,Chong, Eugene,Lawniczak, James,Sanford, Melanie S.
supporting information, p. 4258 - 4261 (2016/09/09)
We report the development of an iron-catalyzed method for the selective oxyfunctionalization of benzylic C(sp3)-H bonds in aliphatic amine substrates. This transformation is selective for benzylic C-H bonds that are remote (i.e., at least three carbons) from the amine functional group. High site selectivity is achieved by in situ protonation of the amine with trifluoroacetic acid, which deactivates more traditionally reactive C-H sites that are α to nitrogen. The scope and synthetic utility of this method are demonstrated via the synthesis and derivatization of a variety of amine-containing, biologically active molecules.
Enantio- and regioselective CuH-catalyzed hydroamination of alkenes
Zhu, Shaolin,Niljianskul, Nootaree,Buchwald, Stephen L.
supporting information, p. 15746 - 15749 (2013/11/06)
A highly enantio- and regioselective copper-catalyzed hydroamination reaction of alkenes has been developed using diethoxymethylsilane and esters of hydroxylamines. The process tolerates a wide variety of substituted styrenes, including trans-, cis-, and β,β-disubstituted styrenes, to yield α-branched amines. In addition, aliphatic alkenes coupled to generate exclusively the anti-Markovnikov hydroamination products.