1006-65-1Relevant articles and documents
Substituent effects on 15N and 13C NMR chemical shifts of 3-phenylisoxazoles: A theoretical and spectroscopic study
Schofield, Mark H.,Sorel, Marie-Adele,Manalansan, Ryan J.,Richardson, David P.,Markgraf, J. Hodge
, p. 851 - 855 (2006)
The synthesis and assignment of 15N and 13C NMR signals of the isoxazole ring in a series of parasubstituted 3-phenyl derivatives are reported. DFT calculations of 15N and 13C chemical shifts are presented and c
Reaction of halogenated cyclopropanes and nitrosyl cation: Preparation of isoxazoles
Lin,Kuo,Yang
, p. 5229 - 5231 (1997)
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Generation of an 4-Isoxazolyl Anion Species: Facile Access to Multifunctionalized Isoxazoles
Morita, Taiki,Fuse, Shinichiro,Nakamura, Hiroyuki
, p. 13580 - 13584 (2016)
A direct functionalization of unsubstituted isoxazole (1) was achieved by generation of 4-isoxazolyl anion species (3). An efficient 4-iodination of isoxazole and halogen–metal exchange reaction using a turbo Grignard reagent (iPrMgCl? LiCl) were essentia
Unusual Reactivity of 4-Vinyl Isoxazoles in the Copper-Mediated Synthesis of Pyridines, Employing DMSO as a One-Carbon Surrogate
Kumar, Pravin,Kapur, Manmohan
supporting information, p. 5855 - 5860 (2020/07/30)
An efficient protocol for the synthesis of nicotinate derivatives and tetrasubstituted pyridines through a copper-mediated cleavage of isoxazoles has been developed. The highlight of the work is the observation of an unusual reactivity of 4-vinyl isoxazoles under the reaction conditions. DMSO serves as a one-carbon surrogate generating an active methylene group during the reaction to form two C-C bonds. This protocol provides a facile and an expeditious approach for the assembly of densely substituted N-heterocyclic compounds.
Method for converting lignin into isoxazole and aromatic nitrile
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Paragraph 0051; 0052; 0064, (2019/07/04)
The present invention relates to a method for obtaining isoxazole and aromatic nitrile from a lignin model and pre-oxidized birch lignin. The method is characterized in that hydroxylamine hydrochloride and a beta-O-4 model compound containing ketone in the benzyl position, which are used as reaction substrates, undergo oximation condensation Cbeta-O bond fracture under the action of magnesium andother additives to prepare the isoxazole compound, and undergo oximation rearrangement Calpha-Cbeta bond fracture the action of magnesium and other additives to prepare the fragrant nitrile compound.The method can be applied to the conversion of pre-oxidized lignin into the isoxazole and aromatic nitrile. The preparation method comprises the following steps: mixing the beta-O-4 model compound orpre-oxidized birch lignin, hydroxylamine hydrochloride and the additives in an alcohol solvent, adding the obtained mixture into a pressure-resistant container, replacing air in the container with nitrogen, sealing the container, and stirring the mixture at 120 DEG C for 8-12 h to obtain the products isoxazole and aromatic nitrile. The method realizes the obtaining of nitrogen-containing compoundssuch as isoxazole and aromatic nitrile from lignin for the first time, and the reaction process is simple and controllable, and is easy to operate.