4-乙氧基亚甲基-2-苯基-5(4H)-恶唑酮与各种杂环胺的反应

Anna V. Miroshnikova, Aleksandra S. Tikhomolova, Natalya O. Vasilkova, A. Egorova
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摘要

通过对文献数据的分析,没有关于5(4H)-恶唑酮类化合物与胺类化合物在密封容器反应器条件下的行为的信息,这使得得到不同胺类化合物的杂环体系成为可能。基于4-乙氧基亚甲基-2-苯基-5(4H)-恶唑酮与不同环大小的杂环胺和杂原子的相互作用,我们开发并提出了一种简单、快速、可靠和创新的方法来制备一系列具有合成和生物潜力的新化合物。根据所得结果,发现转变是通过亲核加成机制进行的。讨论了传导相互作用的方案。最初,所使用的胺的氨基在初始底物乙氧基亚甲唑酮的外环C=C键上被攻击,接着以乙醇分子的形式消除一个离开良好的乙氧基,这导致最终的恶唑-5(4H)- 1的4-己基氨基甲酰基衍生物。在工作过程中,已经发现使用密封容器反应器可以减少转化时间,与通常的反应混合物激活类型(如在乙醇中煮沸)相比,实现选择性和目标产物产量的增加。研究表明,不仅活化方式的不同,所用溶剂的性质也会影响反应速率。发现在这些条件下,随着恶唑-5(4Н)- 1环的保存,发生了转化。通过薄层色谱、元素分析、红外光谱、核磁共振光谱对反应过程进行了控制,测定了所得化合物的个性和鉴定。
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4-Ethoxymethylene-2-phenyl-5(4H)-oxazolone in reactions with various heterocyclic amines
The analysis of the literature data has showed that there is no information on the behavior in 5(4H)-oxazolones with amines under the conditions of a sealed vessel reactor, which makes it possible to obtain heterocyclic systems with different amines. We have developed and presented an easy, fast, reliable and innovative method for the preparation of a new series of compounds with synthetic and biological potential, based on the interaction of 4-ethoxymethylene-2-phenyl-5(4H)-oxazolone and heterocyclic amines with different ring sizes and sets heteroatoms using a sealed vessel reactor. Based on the results obtained, it has been found that the transformation proceeds by the mechanism of nucleophilic addition of Michael. The scheme of the conducted interaction has been discussed. Initially, the amino group of the amine used is attacked at the exocyclic C=C bond of the initial substrate, ethoxymethylenexazolone, proceeding with the elimination of a well-leaving ethoxy group in the form of an ethanol molecule, which leads to the final 4-hetarylaminomethylidene derivatives of oxazol-5(4H)-one. In the course of the work, it has been found that the use of a sealed vessel reactor makes it possible to reduce the time of transformations, to achieve an increase in selectivity and yields of target products compared to the usual type of activation of the reaction mixture, such as boiling in ethanol. It has been shown that not only the type of activation, but also the nature of the solvent used affects the rate of the reaction. It has been found that under these conditions the transfor mation proceeds with the preservation of the oxazol-5(4Н)-one ring. Control over the course of reactions, determination of individuality and identification of the obtained compounds have been carried out by TLC, elemental analysis, IR-, NMR spectroscopy.
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