Fabrication of Fe3O4@AMNA-CuBr Nanocomposite as a Highly Efficient and Reusable Heterogenous Catalyst for Synthesis of Highly Substituted Oxazoles

IF 2.4 3区 化学 Q2 CHEMISTRY, ORGANIC Polycyclic Aromatic Compounds Pub Date : 2024-10-20 DOI:10.1080/10406638.2023.2276251
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Abstract

Research on synthetic methods for the preparation of oxazoles is an important issue among synthetic chemists because oxazole derivatives are structural subunits of various natural active products and are valuable synthetic and pharmaceutical precursors. In this research work, we constructed CuBr supported on surface of magnetic Fe3O4 nanoparticles modified with 6-(aminomethyl)nicotinic acid [Fe3O4@AMNA-CuBr nanocomposite] and evaluated its catalytic activity for the preparation of highly substituted oxazoles through one-pot three-component reactions of diphenylacetylene derivatives with aryl nitriles and water in PEG as the solvent. The results shown that the Fe3O4@AMNA-CuBr catalyst was used 8 times without significant decrease in catalytic activity. XRD and TEM analysis confirmed that the structure and morphology that the Fe3O4@AMNA-CuBr catalyst did not change after 8 runs.
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制备 Fe3O4@AMNA-CuBr 纳米复合材料,作为合成高取代恶唑的高效、可重复使用的异源催化剂
由于噁唑衍生物是多种天然活性产品的结构单元,是宝贵的合成和药物前体,因此研究制备噁唑类化合物的合成方法是合成化学家的一个重要课题。在这项研究工作中,我们在经 6-(氨基甲基)烟酸修饰的磁性 Fe3O4 纳米粒子表面构建了 CuBr 支持的[Fe3O4@AMNA-CuBr 纳米复合材料],并评估了其在以 PEG 为溶剂的二苯基乙炔衍生物与芳基腈和水的一锅三组分反应中制备高取代度噁唑类化合物的催化活性。结果表明,Fe3O4@AMNA-CuBr 催化剂使用 8 次后,催化活性没有明显下降。XRD 和 TEM 分析证实,Fe3O4@AMNA-CuBr 催化剂的结构和形态在使用 8 次后没有发生变化。
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来源期刊
Polycyclic Aromatic Compounds
Polycyclic Aromatic Compounds 化学-有机化学
CiteScore
3.70
自引率
20.80%
发文量
412
审稿时长
3 months
期刊介绍: The purpose of Polycyclic Aromatic Compounds is to provide an international and interdisciplinary forum for all aspects of research related to polycyclic aromatic compounds (PAC). Topics range from fundamental research in chemistry (including synthetic and theoretical chemistry) and physics (including astrophysics), as well as thermodynamics, spectroscopy, analytical methods, and biology to applied studies in environmental science, biochemistry, toxicology, and industry. Polycyclic Aromatic Compounds has an outstanding Editorial Board and offers a rapid and efficient peer review process, as well as a flexible open access policy.
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