1211-92-3Relevant academic research and scientific papers
Magnetic CuFe2O4nanoparticles: A retrievable catalyst for oxidative amidation of aldehydes with amine hydrochloride salts
Suresh Kumar,Thulasiram,Bala Laxmi,Rawat, Vikas S.,Sreedhar
supporting information, p. 6059 - 6067 (2014/12/10)
The application of magnetic CuFe2O4nanoparticles for the oxidative amidation of aldehydes with amine hydrochloride salts is described. A wide range of amides have been synthesized in good to excellent yields under mild conditions. Chiral amide also synthesized from its corresponding chiral amine salt with retention of the stereochemistry. In particular, the performance of the magnetic separation of the catalyst was very efficient and an alternative to time, solvent and energy-consuming separation procedures. The catalytic activity of the catalyst remains unaltered after five consecutive cycles, making it environmentally benign and widely applicable due to its efficiency, ease of handling and cost effectiveness.
Magnetic CuFe2O4 nanoparticles: A retrievable catalyst for oxidative amidation of aldehydes with amine hydrochloride salts
Suresh Kumar,Thulasiram,Bala Laxmi,Rawat, Vikas S.,Sreedhar
supporting information, p. 6059 - 6067 (2015/03/30)
The application of magnetic CuFe2O4 nanoparticles for the oxidative amidation of aldehydes with amine hydrochloride salts is described. A wide range of amides have been synthesized in good to excellent yields under mild conditions. Chiral amide also synthesized from its corresponding chiral amine salt with retention of the stereochemistry. In particular, the performance of the magnetic separation of the catalyst was very efficient and an alternative to time, solvent and energy-consuming separation procedures. The catalytic activity of the catalyst remains unaltered after five consecutive cycles, making it environmentally benign and widely applicable due to its efficiency, ease of handling and cost effectiveness.
Palladium(II)-catalyzed ortho-C-H arylation/alkylation of N-benzoyl α-amino ester derivatives
Misal Castro, Luis C.,Chatani, Naoto
, p. 4548 - 4553 (2014/05/06)
The palladium-catalyzed arylation/alkylation of ortho-C-H bonds in N-benzoyl α-amino ester derivatives is described. In such a system both the NH-amido and the CO2R groups in the α-amino ester moieties play a role in successful C-H activation/C-C bond formation using iodoaryl coupling partners. A wide variety of functional groups and electron-rich/ deficient iodoarenes are tolerated. The yields obtained range from 20 to 95 %. C-H activation: The transformation of N-benzoyl amino acid ester derivatives (Gly, Asp) has been studied, in which the ortho-C-H activation/C-C bond formation was achieved by using the synergistic system Pd(OAc)2/AgOAc and halide compounds as coupling partners in t-Amyl-OH under air (see scheme).
Substrate Specificity and Stoichiometry of Nα-Benzyloxycarbonyl Amino Acid Urethane Hydrolase from Streptococcus faecalis R ATCC 8043
Matsumura, Eiko,Shin, Takashi,Murao, Sawao,Kawano, Tatsu
, p. 973 - 980 (2007/10/02)
The substrate specificity of a new enzyme, Nα-benzyloxycarbonyl amino acid urethane hydrolase, was investigated.The enzyme hydrolyzed Nα-benzyloxycarbonyl-glycine and -alanine, and Nα-benzoyl-glycine and -alanine.Nα-benzyloxycarbonyl-glycine was hydrolyzed to give equimolar benzyl alcohol and glycine.Equimolar benzoic acid and glycine were produced from Nα-benzoyl-glycine by the enzyme reaction.The Km, k0, and k0/Km values were measured for several substrates.The k0 values varied widely with the amino acid residues.Nα-benzyloxycarbonyl-glycine and Nα-benzoyl-glycine produced relatively small changes in the Km values (0.36 ca. 0.10 mM) and the k0/Km values (99440 ca. 202000 M-1 sec-1).The rate of hydrolysis is significantly affected by electron-supplying substituents on the benzene ring.
