微波辐射下(E)-2-氰基-3-芳基选择性Knoevenagel加合物的绿色合成方法

IF 0.9 Q4 CHEMISTRY, MULTIDISCIPLINARY Current Microwave Chemistry Pub Date : 2019-10-24 DOI:10.2174/2213335606666190906123431
D. E. Jimenez, L. L. Zanin, L. F. Diniz, J. Ellena, A. Porto
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引用次数: 9

摘要

Knoevenagel缩合反应是有机化学中的一个重要反应,因为它能够形成新的C-C键,其产物主要用作有机合成的中间体,因为它们可以进行大量的反应。基于knoevenagel加合物的重要性,提出了一种利用微波辐射的可持续合成方法。开发了一种利用微波辐照和绿色溶剂制备高收率Knoevenagel加合物的合成方法。研究了不同碱性催化剂和微波辐照下的Knoevenagel缩合反应。用不同的醛、氰乙酰胺或氰乙酸甲酯扩大反应范围。成形产品的几何形状也进行了评估。优化工艺后,以三乙胺为催化剂,在微波照射下,以nacl溶液为溶剂,在35 min内进行醛类与氰乙酰胺的反应,收率达到90 ~ 99%。醛类与氰乙酸甲酯也在此条件下进行了反应,但以乙酸乙酯为溶剂产率较好。最后,通过x射线分析,证实了这些化合物的(E)几何结构。本文研究了利用三乙胺、绿色溶剂和微波辐照合成Knoevenagel缩合物的方法。在35分钟内获得了高收率(70-99%)的产物,并确定了加合物的(E)几何形状。
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Green Synthetic Methodology of (E)-2-cyano-3-aryl Selective Knoevenagel Adducts Under Microwave Irradiation
The Knoevenagel condensation is an important reaction in organic chemistry because of its capacity to form new C-C bonds and its products are mainly used in organic synthesis as intermediates, due to the large number of reactions they can undergo. Based on the importance of the Knoevenagel adducts, a sustainable synthetic methodology was developed employing microwave irradiation. Develop a synthetic methodology employing microwave irradiation and green solvents to obtain Knoevenagel adducts with high yields. Knoevenagel condensation reactions were evaluated with different basic catalysts, as well as in the presence or absence of microwave irradiation. The scope of the reaction was expanded using different aldehydes, cyanoacetamide or methyl cyanoacetate. The geometry of the formed products was also evaluated. After the optimization process, the reactions between aldehydes and cyanoacetamide were performed with triethylamine as catalyst, in the presence of microwave irradiation, in 35 minutes, using NaCl solution as solvent and resulted in high yields 90-99%. The reactions performed between aldehydes and methyl cyanoacetate were also performed under these conditions, but showed better yields with EtOH as solvent 70-90%. Finally, from X-ray analysis, the (E)-geometry of these compounds was confirmed. In this study we developed synthetic methodology of Knoevenagel condensation using triethylamine, green solvents and microwave irradiation. In 35 minutes, products with high yields (70- 99%) were obtained and the (E)-geometry of the adducts was confirmed.
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Current Microwave Chemistry
Current Microwave Chemistry CHEMISTRY, MULTIDISCIPLINARY-
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