Ring Opening of Epoxides and Aziridines with Benzotriazoles Using Magnetically Retrievable Graphene Based (CoFe@rGO) Nanohybrid

Organic Chemistry eJournal Pub Date : 2021-02-01 DOI:10.2139/SSRN.3775834

A. Sheoran, J. Kaur, J. Agarwal, S. Singhal

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Abstract

Reduced Graphene oxide (rGO) behaves as an excellent heterogeneous catalyst because of its remarkable characteristics such as large specific surface area and high thermal stability. In this regards, Graphene oxide was converted to magnetic nanohybrid (CoFe@rGO) and utilized as an efficient heterogeneous catalyst for the ring opening reactions and act as Lewis acid to promote the reaction. Developed a new facile, environmentally benign and green methodology for the synthesis of β-hydroxytriazoles and β- N -tosylsulfonamidetriazoles derivatives via ring opening reaction of epoxides and aziridines respectively in the presence of CoFe@rGO nanohybrid as catalyst in good to excellent yields under solvent free reaction conditions. Catalyst was separated from the reaction mixture by an external magnet, recycled and reused up to six catalytic runs without significant loss of catalytic activity. Environmentally benign conditions, cheap starting materials, shorter reaction times, easy work-up and purification of the products, high regioselectivity, high yields, recyclability and reusability of catalyst are the main advantages of our protocol.

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磁性可回收石墨烯基(CoFe@rGO)纳米杂化物对环氧化物和叠氮醚与苯并三唑开环的影响

还原氧化石墨烯(rGO)具有比表面积大、热稳定性高等特点，是一种优良的非均相催化剂。为此，将氧化石墨烯转化为磁性纳米杂化物(CoFe@rGO)，作为开环反应的高效非均相催化剂，并作为Lewis酸促进反应。在无溶剂条件下，以CoFe@rGO纳米杂化物为催化剂，通过环氧化合物开环反应合成β-羟基三唑衍生物和β- N -甲基磺酰胺三唑衍生物，获得了一种简便、环保、绿色的新方法。催化剂通过外部磁铁从反应混合物中分离出来，回收和重复使用多达六次催化运行，而没有明显的催化活性损失。环境友好的条件，廉价的起始材料，较短的反应时间，易于加工和纯化的产品，高区域选择性，高收率，催化剂的可回收性和可重复使用是我们的方案的主要优点。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Organic Chemistry eJournal

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