619-80-7Relevant articles and documents
Wiberg
, p. 3961,3962 (1953)
Catalysis of the reaction between 4-nitrobenzoic acid and ammonia by boric acid + polyehylene glycol-400
Shteinberg
, p. 1715 - 1717 (2005)
Solvent effect on the synthesis of 4-nitrobenzamide by the reaction of 4-nitrobenzoic acid with ammonia in the presence of the catalytic system constituted by boric acid and polyethylene glycol-400 was studied.
New synthesis of 4-nintrobenzamide
Shteinberg
, p. 972 - 974 (2003)
The reaction of 4-nitrobenzoic acid with ammonia in the presence of various catalysts was studied. Tetrabutoxytitanium and boric acid with addition of PEG-400 favor formation of 4-nitrobenzamide in a high yield. The amidation occurs in the temperature range from 160 to 185°C in trichlorobenzene and in a mixture of trichlorobenzene with o-xylene. Neither PEG-400 nor the above catalysts in the absence of PEG-400 do not catalyze the reaction.
Manganese-Pincer-Catalyzed Nitrile Hydration, α-Deuteration, and α-Deuterated Amide Formation via Metal Ligand Cooperation
Ben-David, Yehoshoa,Diskin-Posner, Yael,Kar, Sayan,Milstein, David,Zhou, Quan-Quan,Zou, You-Quan
, p. 10239 - 10245 (2021/08/24)
A simple and efficient system for the hydration and α-deuteration of nitriles to form amides, α-deuterated nitriles, and α-deuterated amides catalyzed by a single pincer complex of the earth-abundant manganese capable of metal-ligand cooperation is reported. The reaction is selective and tolerates a wide range of functional groups, giving the corresponding amides in moderate to good yields. Changing the solvent from tert-butanol to toluene and using D2O results in formation of α-deuterated nitriles in high selectivity. Moreover, α-deuterated amides can be obtained in one step directly from nitriles and D2O in THF. Preliminary mechanistic studies suggest the transformations contributing toward activation of the nitriles via a metal-ligand cooperative pathway, generating the manganese ketimido and enamido pincer complexes as the key intermediates for further transformations.
Activated Mont K10-Carbon supported Fe2O3: A versatile catalyst for hydration of nitriles to amides and reduction of nitro compounds to amines in aqueous media
Rahman, Taskia,Borah, Geetika,Gogoi, Pradip K
, (2021/03/14)
The iron oxide was successfully supported on activated clay/carbon through an experimentally viable protocol for both hydrations of nitrile to amide and reduction of nitro compounds to amines. The as-prepared catalyst has been extensively characterised by XPS, SEM-EDX, TEM, TGA, BET surface area measurements and powdered X-ray diffraction (PXRD). A wide variety of substrates could be converted to the desired products with good to excellent yields by using water as a green solvent for both the reactions. The catalyst was recyclable and reusable up to six consecutive cycles without compromising its catalytic proficiency. Graphical abstract: Activated Mont K10 carbon-supported Fe2O3 is a very efficient and versatile heterogeneous catalytic system for hydration of nitriles to amides and reduction of nitro compounds to amines and can be reused up to six consecutive cycles without significant loss in catalytic activity.[Figure not available: see fulltext.].