19343-15-8

Articles about 19343-15-8

Synthesis and characterization of Pd(II)–vitamin B6 complex supported on magnetic nanoparticle as an efficient and recyclable catalyst system for C–N cross coupling of amides in deep eutectic solvents

Vitamin B6–Pd(II) immobilized onto magnetic nanoparticles have been successfully prepared and applied for C–Xcross-coupling reactions with aryl halides in green deep eutectic solvents. The results prove that the Fe3O4@vitamin B6–Pd(II) magnetic nanoparticles show high catalyst activity and good stability. It was also revealed that this complex can be recycled up to five times without any significant loss in catalytic activity.

Rhodium-Catalyzed Addition of Organozinc Iodides to Carbon-11 Isocyanates

Amides were prepared using rhodium-catalyzed coupling of organozinc iodides and carbon-11 (11C, t1/2 = 20.4 min) isocyanates. Nonradioactive isocyanates and sp3 or sp2 organozinc iodides generated amides in yields of 13%-87%. Incorporation of cyclotron-produced [11C]CO2 into 11C-amide products proceeded in yields of 5%-99%. The synthetic utility of the methodology was demonstrated through the isolation of [11C]N-(4-fluorophenyl)-4-methoxybenzamide ([11C]6g) with a molar activity of 267 GBq μmol-1 and 12% radiochemical yield in 21 min from the beginning of synthesis.

Clickable coupling of carboxylic acids and amines at room temperature mediated by SO2F2: A significant breakthrough for the construction of amides and peptide linkages

The construction of amide bonds and peptide linkages is one of the most fundamental transformations in all life processes and organic synthesis. The synthesis of structurally ubiquitous amide motifs is essential in the assembly of numerous important molecules such as peptides, proteins, alkaloids, pharmaceutical agents, polymers, ligands and agrochemicals. A method of SO2F2-mediated direct clickable coupling of carboxylic acids with amines was developed for the synthesis of a broad scope of amides in a simple, mild, highly efficient, robust and practical manner (>110 examples, >90% yields in most cases). The direct click reactions of acids and amines on a gram scale are also demonstrated using an extremely easy work-up and purification process of washing with 1 M aqueous HCl to provide the desired amides in greater than 99% purity and excellent yields.

Carboxyl activation of 2-mercapto-4,6-dimethylpyrimidine through n-acyl-4,6-dimethylpyrimidine-2-thione: A chemical and spectrophotometric investigation

2-Mercapto-4,6-dimethylpyrimidine, as effective carboxyl activating group, has been successfully proved by converting it into respective acyl derivatives and the subsequent conversion to the amides and esters respectively using amines, amino alcohols and alcohols. The aminolysis and esterification were monitored chemically and spectrophotometrically. This paved way to establish that the above mercaptopyrimidine derivative is an efficient carboxyl activating group applicable in solid phase peptide synthesis.

Ligand-enabled triple C-H activation reactions: One-pot synthesis of diverse 4-aryl-2-quinolinones from propionamides

Diverse 4-aryl-2-quinolinones are prepared from propionamides in one pot by ligand-promoted triple sequential C-H activation reactions and a stereospecific Heck reaction. In these cascade reactions, three new C-C bonds and one C-N bond are formed to rapidly build molecular complexity from propionic acid. Building complexity: Diverse 4-aryl-2-quinolinones such as 1 are prepared from propionamides in one pot by pyridine ligand-promoted triple sequential C-H activation reactions and a stereospecific Heck reaction. In these cascade reactions, three new C-C bonds and one C-N bond are formed to rapidly build molecular complexity from propionic acid.

New, efficient, selective, and one-pot method for acylation of amines

Hydrazine hydrate with acetic and propionic acids was an efficient reagent for acylation of primary and secondary amines at reflux temperatures. The reported one-pot method is high-yielding, simple, mild, and inexpensive. Copyright Taylor & Francis Group, LLC.

Infrared spectra of N-aryl substituted amides 2/4-XC6H 4NHCOR (R = H, CH3-iXi, C6H 5 or C6H5Cl; X = H, Cl or CH3 and i = 0, 1, 2 or 3)

Several N-(aryl)-substituted amides of the general formula, 2/4-XC 6H4NHCOR (where X = H, Cl or CH3 and R = H, CH3, CH2CH3, CH(CH3)2, C(CH3)3, C6H5 or C6H 5Cl) are prepared, characterised and their infrared spectra measured in the solid state and analysed. Generally chloro substitution in the side chain increases the C=O absorptions, while that of methyl groups lower the wave numbers. Amides with trimethyl substituted side chains absorb at higher wavenumbers. But the N-H and C-N stretching vibrations do not show particular trends on side chain substitution. This may be due to the fact that the spectra were recorded in the solid state and the compounds may crystallise in different forms in the solid state. The intercorrelations of C=O and N-H absorption frequencies of all the amides have been made. The correlations are reasonably linear with some exceptions for the reasons stated above.

METHOD OF PROCESSING OF HYDROGEN FOR REDUCTIVE ACYLATION OF NITRO, AZIDO AND CYANO ARENES

The present invention relates to a method for processing of hydrogen for the reductive acylation of nitro, azido and cyano arenes. More particularly, this invention relates to an improved process for the preparation of amides and anilides using C3-C7 carboxylic acids as proton source/acylating agents employing Fe3+-montmorillonite as a catalyst.

Method of processing of hydrogen for reductive acylation of nitro, azido and cyano arenes

A method for processing of hydrogen for the reductive acylation of nitro, azido and cyano arenes is disclosed. More particularly, improved process for the preparation of amides and anilides using C3-C7carboxylic acids as proton source/acylating agents employing Fe3+-montmorillonite as a catalyst is disclosed.