多相催化剂上醛酮一锅胺化反应制备仲胺

P. Mäki-Arvela, I. Simakova, D. Murzin
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引用次数: 7

摘要

摘要综述了近年来在非均相催化下,醛酮一锅胺化法合成仲胺的研究进展。在化学工业中,胺作为关键中间体被广泛应用于合成各种商品,如农用化学品、药品、洗涤剂、润滑剂、食品添加剂和聚合物。羰基化合物的直接催化还原胺化通常包括两个步骤:(i)通过醛或酮与胺的相互作用形成亚胺,以及(ii)随后的亚胺氢化。本文还详细讨论了羰基化合物合成仲胺的方法,以及在反应条件下由它们的前体(如醇或硝基化合物)原位生成的胺的方法。近年来甲酸、NaBH4、CO和水等氢源替代氢的应用进展有利于固体酸催化剂等无金属催化剂的发展。综述了不同结构的醛/酮类和硝基/胺类化合物的胺化反应的范围、溶剂、反应条件和催化剂性能的影响。此外,还对催化剂的再生与再利用、动力学规律和动力学建模进行了系统的总结和讨论,并以一锅连续化模式为重点。建议今后的工作重点是揭示催化活性位点的作用,确定其酸碱性质以及催化剂性质与反应性能的关系,阐明动力学参数并设计可行的反应器系统,以便进一步工业化实施。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
One-pot amination of aldehydes and ketones over heterogeneous catalysts for production of secondary amines
ABSTRACT This review summarizes the recent studies on the synthesis of secondary amines by one-pot amination of aldehydes and ketones over heterogeneous catalysts. Amines are widely applied as the key intermediates in chemical industry for the synthesis of various commodities such as agrochemicals, drugs, detergents, lubricants, food-additives and polymers. Direct catalytic reductive amination of carbonyl compounds was considered which generally includes two steps: (i) formation of imines by interactions of aldehydes or ketones with amines, and (ii) subsequent hydrogenation of imines. Synthesis of secondary amines from carbonyl compounds and amines generated in situ under reaction conditions from their progenitors, e.g., respectively, alcohols or nitro-compounds, is also discussed in detail. Recent progress in application of hydrogen sources alternative to gaseous H2, such as formic acid, NaBH4, CO and water, favored development of metal-free catalysts including solid acid catalysts. The review addresses the scope of the amination reaction with aldehydes/ketones and nitro/amine compounds of different structure, the effect of the solvent, reaction conditions and catalyst properties. In addition, catalyst regeneration and reuse, kinetic regularities and kinetic modeling with an emphasis on the continuous mode of one-pot amination have been systematically summarized and discussed. It is suggested that the future work should focus on revealing the role of the catalytically active sites addressing their acid–base properties and the correlation between catalyst properties and the reaction performance, elucidating kinetic parameters and designing feasible reactor system for further industrial implementation.
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