Condensation Reactions of Aromatic Aldehydes with Active Methylene Compounds: The Beneficial Sinergy of Alkaline Ionic Liquid in One Pot Synthesis

IF 0.9 Q4 CHEMISTRY, PHYSICAL Current Organocatalysis Pub Date : 2022-03-01 DOI:10.2174/2213337209666220301123926
Swapnil R. Bankar
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Abstract

In recent times, there is an on-going interest in developing convenient and environmentally friendly synthetic methods in organic chemistry. The use of ionic liquid catalysts in organic synthesis is a developing area that allows reactions to be run at low temperature and without solvents. Literature overview revealed that room temperature supported ionic liquid catalysis is a developing field in catalytic science with huge application in organic synthesis. Hence in this current article our focus is on the one-pot synthesis of arylidene derivatives with the use of ([bmim]OH) ionic liquid. We describe here the use of an ionic liquid catalyst, 1-n-butyl-3-methylimidazolium hydroxide, [bmim]OH), in the convenient one pot synthesis of arylidene derivatives by the reaction of the active methylene compound, malononitrile, with pyrazole aromatic aldehydes under microwave irradiation. The functionalized ionic liquid, 1-n-butyl-3-methylimidazolium hydroxide ([bmim]OH) catalyzed Knoevenagel condensation reactions of pyrazole aromatic aldehydes with active methylene compound malononitrile carried out under microwave irradiation. The reaction progress was monitored by thin layer chromatography and the synthesized compounds were further characterized by NMR spectroscopy. This proposed work demonstrate the utility of the use of the ionic liquid catalyst [bmim]OH, in the suitable, high yield (80-95%) microwave assisted reactions of pyrazole aromatic aldehydes with the active methylene compound malononitrile. An eco-friendly synthesis of pyrazole derivatives has been demonstrated using ([bmim]OH) ionic liquid as a catalyst for the Knoevenagel condensation reactions of pyrazole aromatic aldehydes and malononitrile with microwave irradiation. The advantages of this green method are its convenience, mild reaction conditions, and high product yields (80-95%).
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芳香醛与活性亚甲基化合物的缩合反应:碱性离子液体一锅法合成的有利条件
近年来,人们对在有机化学中开发方便和环境友好的合成方法越来越感兴趣。离子液体催化剂在有机合成中的应用是一个发展中的领域,它允许反应在低温和无溶剂的情况下进行。文献综述表明,室温支持的离子液体催化是催化科学的一个发展领域,在有机合成中有着巨大的应用。因此,在本文中,我们的重点是使用([bmim]OH)离子液体一锅合成亚芳基衍生物。我们在此描述了离子液体催化剂1-正丁基-3-甲基咪唑鎓氢氧化物[bmim]OH)在微波辐射下通过活性亚甲基化合物丙二腈与吡唑芳香醛的反应方便地一锅合成芳基衍生物中的用途。功能化离子液体1-正丁基-3-甲基咪唑鎓氢氧化物([bmim]OH)在微波辐射下催化吡唑芳香醛与活性亚甲基化合物丙二腈的Knoevenagel缩合反应。通过薄层色谱法监测反应进展,并通过NMR光谱进一步表征合成的化合物。这项拟议的工作证明了离子液体催化剂[bmim]OH在吡唑芳香醛与活性亚甲基化合物丙二腈的合适、高产率(80-95%)微波辅助反应中的用途。以([bmim]OH)离子液体为催化剂,在微波辐射下进行吡唑芳香醛和丙二腈的Knoevenagel缩合反应,证明了吡唑衍生物的环保合成。这种绿色方法的优点是它方便,反应条件温和,产物产率高(80-95%)。
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来源期刊
Current Organocatalysis
Current Organocatalysis CHEMISTRY, PHYSICAL-
CiteScore
2.00
自引率
0.00%
发文量
28
期刊介绍: Current Organocatalysis is an international peer-reviewed journal that publishes significant research in all areas of organocatalysis. The journal covers organo homogeneous/heterogeneous catalysis, innovative mechanistic studies and kinetics of organocatalytic processes focusing on practical, theoretical and computational aspects. It also includes potential applications of organocatalysts in the fields of drug discovery, synthesis of novel molecules, synthetic method development, green chemistry and chemoenzymatic reactions. This journal also accepts papers on methods, reagents, and mechanism of a synthetic process and technology pertaining to chemistry. Moreover, this journal features full-length/mini review articles within organocatalysis and synthetic chemistry. It is the premier source of organocatalysis and synthetic methods related information for chemists, biologists and engineers pursuing research in industry and academia.
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