621-88-5Relevant articles and documents
Microwave assisted synthesis of novel 1,2,4-triazines in dry media
Kidwai,Sapra,Bhushan,Misra
, p. 1639 - 1645 (2001)
An efficient facile and solventless synthesis of 1,2,4-triazines using microwave is described. A non conventional synthetic procedure has been developed where solid inorganic support is used as energy transfer medium under microwave irradiation (MWI) which devoids hazards of solution phase reactions. The reaction time has been brought down from hours to seconds with improved yield as compared to conventional heating.
A phenoxy acetyl amine compound preparation method and phenoxy acetamide compounds
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Paragraph 0040; 0047; 0048, (2019/05/21)
The invention belongs to the organic intermediates and the technical field of pharmaceutical intermediates, in particular to a phenoxy acetyl amine compound preparation method and phenoxy acetyl amine compound. The present invention provides a preparation method of the pervasive should be good, and green environmental protection, has better popularization and application value. The results show that the embodiment, the invention provides the above-mentioned method can prepare a plurality of phenoxy acetyl amine compound, and the yield can be 76%.
Phosphinous Acid-Assisted Hydration of Nitriles: Understanding the Controversial Reactivity of Osmium and Ruthenium Catalysts
González-Fernández, Rebeca,Crochet, Pascale,Cadierno, Victorio,Menéndez, M. Isabel,López, Ramón
, p. 15210 - 15221 (2017/10/12)
The synthesis and catalytic behavior of the osmium(II) complexes [OsCl2(η6-p-cymene)(PR2OH)] [R=Me (2 a), Ph (2 b), OMe (2 c), OPh (2 d)] in nitrile hydration reactions is presented. Among them, the best catalytic results were obtained with the phosphinous acid derivative [OsCl2(η6-p-cymene)(PMe2OH)] (2 a), which selectively provided the desired primary amides in excellent yields and short times at 80 °C, employing directly water as solvent, and without the assistance of any basic additive (TOF values up to 200 h?1). The process was successful with aromatic, heteroaromatic, aliphatic, and α,β-unsaturated organonitriles, and showed a high functional group tolerance. Indeed, complex 2 a represents the most active and versatile osmium-based catalyst for the hydration of nitriles reported so far in the literature. In addition, it exhibits a catalytic performance similar to that of its ruthenium analogue [RuCl2(η6-p-cymene)(PMe2OH)] (4). However, when compared to 4, the osmium complex 2 a turned out to be faster in the hydration of less-reactive aliphatic nitriles, whereas the opposite trend was generally observed with aromatic substrates. DFT calculations suggest that these differences in reactivity are mainly related to the ring strain associated with the key intermediate in the catalytic cycle, that is, a five-membered metallacyclic species generated by intramolecular addition of the hydroxyl group of the phosphinous acid ligand to the metal-coordinated nitrile.
