Multicomponent Reactions Synthesis of Triaryl-1H Imidazoles Using Reductive-oxidative Reactions by MnO2-FeSO4 as a Catalyst

Q4 Medicine Journal of Chemical Health Risks Pub Date : 2021-05-01 DOI:10.22034/JCHR.2021.682034

A. Raheem, A. Saleh

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Abstract

Multicomponent Reactions; Triaryl-1H Imidazoles; Reductive-oxidative; Catalyst; MnO2-FeSO4 ABSTRACT: The study's chief purpose is to investigate multicomponent reactions synthesis of triaryl1h imidazoles using reductive-oxidative reactions by MnO2 FeSO4 as a catalyst.Some novel substituted imidazoles have been synthesized using MCRs, one-pot synthesis, and MnO2/FeSO4 as a catalyst; the method involves the reaction of benzil, aromatic aldehyde, and ammonium acetate in the presence of MnO2/FeSO4 as a reductive-oxidative catalyst under mild conditions. the obtained compounds were nontoxic, excellent yields, and environmentally friendly. The compounds were elucidated using IR and H-NMR spectra. To satisfy the aim of the study, Reactions have been performed simply by mixing 1,2-diketone with an aldehyde and ammonium acetate in the presence of the catalytic reagent of MnO2/FeSO4. The mixture was prepared by ground them together in a mortar with a pestle at room temperature for several minutes; after that, they purified by column chromatography, 2,4,5-triaryl substituted imidazole derivatives were obtained in excellent yields.

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MnO2-FeSO4催化还原氧化反应合成三芳基- 1h咪唑的多组分反应

多组分反应；三芳基-1H咪唑；还原性氧化；催化剂摘要：本研究的主要目的是研究以MnO2-FeSO4为催化剂，通过还原氧化反应合成三芳基1h咪唑的多组分反应。以MCRs、一锅法和MnO2/FeSO4为催化剂合成了一些新型取代咪唑；该方法包括在温和条件下，在作为还原氧化催化剂的MnO2/FeSO4的存在下，联苯、芳香醛和乙酸铵的反应。所得化合物无毒、收率高、环境友好。用红外光谱和核磁共振氢谱对化合物进行了鉴定。为了满足研究目的，在MnO2/FeSO4催化试剂的存在下，将1，2-二酮与醛和乙酸铵简单混合进行反应。混合物是通过在室温下用研杵在研钵中将它们一起研磨几分钟来制备的；然后用柱色谱法对其进行纯化，以优异的收率得到2，4，5-三芳基取代咪唑衍生物。

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