在可重复使用的功能化有机硅催化下通过 Pechmann 缩合实现香豆素的绿色合成

IF 2.1 3区化学 Q3 CHEMISTRY, INORGANIC & NUCLEAR

Journal of Organometallic Chemistry Pub Date : 2024-10-11 DOI:10.1016/j.jorganchem.2024.123388

Fatemeh Rajabi , Leonid G. Voskressensky , Rafael Luque

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引用次数: 0

摘要

含氧杂环在生物学和有机化学中具有多种用途。本文开发了一种利用功能化吡啶鎓原离子液体框架（PMO-Py-IL）从苯酚和乙酰乙酸乙酯或乙酰乙酸甲酯无溶剂合成香豆素的方法。在所研究的条件下，获得了极高的产品收率。PMO-Py-IL 在多次反应（最多 12 次）中保持稳定和活性，显示了其稳定性和高效性。催化剂的离子性质可以增加反应混合物的极性，从而提高反应物的溶解度并促进它们之间的相互作用。这最终会稳定中间产物并加速反应，从而提高所需产物的产量。这可以进一步加快反应速度，提高所需产物的产量。所提出的方法为香豆素合成提供了一种高效、简单和易于操作的方法，同时具有出色的纳米催化剂可重复使用性，具有环境和经济优势。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

Green synthesis of coumarins via Pechmann condensation catalyzed by reusable functionalized organosilica

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Green synthesis of coumarins via Pechmann condensation catalyzed by reusable functionalized organosilica

Oxygen-containing heterocycles hold diverse uses in biology and organic chemistry. Herein, a method utilizing a functionalized pyridinium protic ionic liquid framework (PMO-Py-IL) was developed for the solvent-free Pechmann synthesis of coumarins from phenols and ethyl or methyl acetoacetate. High to excellent product yields were obtained under the investigated conditions. PMO-Py-IL remained stable and reactive across multiple reaction runs (up to 12 times), showcasing its stability and efficiency. The ionic nature of the catalyst can increase the polarity of the reaction mixture, leading to improved solubility of reactants and facilitating their interaction. This ultimately stabilizes the intermediates and accelerates the reaction, resulting in higher yields of the desired product. This can further speed up the reaction and increase the yield of the desired product. The proposed approach provides an efficient, simple and easy work-up methodology for coumarin synthesis, with outstanding nanocatalyst's reusability, offering environmental and economic advantages.

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来源期刊

Journal of Organometallic Chemistry 化学-无机化学与核化学

CiteScore

4.40

自引率

8.70%

发文量

221

审稿时长

36 days

期刊介绍： The Journal of Organometallic Chemistry targets original papers dealing with theoretical aspects, structural chemistry, synthesis, physical and chemical properties (including reaction mechanisms), and practical applications of organometallic compounds. Organometallic compounds are defined as compounds that contain metal - carbon bonds. The term metal includes all alkali and alkaline earth metals, all transition metals and the lanthanides and actinides in the Periodic Table. Metalloids including the elements in Group 13 and the heavier members of the Groups 14 - 16 are also included. The term chemistry includes syntheses, characterizations and reaction chemistry of all such compounds. Research reports based on use of organometallic complexes in bioorganometallic chemistry, medicine, material sciences, homogeneous catalysis and energy conversion are also welcome. The scope of the journal has been enlarged to encompass important research on organometallic complexes in bioorganometallic chemistry and material sciences, and of heavier main group elements in organometallic chemistry. The journal also publishes review articles, short communications and notes.