在磁性纳米颗粒床上通过偶联反应形成碳杂原子键

M. Tajbakhsh, A. Ramezani, M. Qandalee, Mobina Falahati, C. Durán-Valle, S. Izquierdo, I. López-Coca
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引用次数: 2

摘要

导致碳杂原子键的交叉偶联反应产生的化合物由于其在许多生物活性和天然产物的合成方案中作为结构单元的作用而吸引了大量的兴趣。因此,许多研究工作旨在改进多相催化方案。我们研究了磁铁矿纳米颗粒和固体碱化合物在碳杂原子键形成有机合成反应中的应用,因为它们可以絮凝和分散,并且可以通过施加磁场进行可逆控制。在这项工作中,我们开发了一种在无配体条件下,以CuI为催化剂,KF/Fe3O4为碱,高效、简单地合成C-O / C-N交叉偶联反应的方法。我们进行了亲核芳香族取代缺乏电子的芳基卤化物和酚。结果表明,溶剂性质和碱对反应过程有较大影响。这种方法可提供良好的芳基化产物收率。KF/Fe3O4表现出方便的磁性能,可以很容易地用磁铁从反应中分离出来,并且可以多次回收,而催化活性没有明显的损失。该方法已成功地应用于乌尔曼偶联反应中。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Carbon–Heteroatom Bond Formation via Coupling Reactions Performed on a Magnetic Nanoparticle Bed
Cross-coupling reactions leading to carbon–heteroatom bonds yield compounds that attract substantial interest due to their role as structural units in many synthetic protocols for bioactive and natural products. Therefore, many research works aim at the improvement of heterogeneous catalytic protocols. We have studied the use of magnetite nanoparticles and solid base compounds in organic synthetic reactions in carbon–heteroatom bond formation because they can be flocculated and dispersed, and reversibly controlled by applying a magnetic field. In this work, we have developed an efficient and simple synthetic approach for the C–O/C–N cross-coupling reaction under ligand-free conditions by using CuI as a catalyst and KF/Fe3O4 as a base. We performed the nucleophilic aromatic substitution of electron-deficient aryl halides and phenols. It was found that both the solvent nature and the base have a profound influence on the reaction process. This approach affords good to excellent yields of arylated products. KF/Fe3O4 displayed convenient magnetic properties and could be easily separated from the reaction using a magnet and recycled several times without significant loss of catalytic activity. This method has been successfully investigated for the Ullmann coupling reaction.
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