Green and Eco-friendly Synthetic Strategies for Quinoxaline Derivatives

IF 1.1 Q3 CHEMISTRY, MULTIDISCIPLINARY
R. Bhatia, Irfan Ali
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引用次数: 0

Abstract

Advancement in green synthetic methodologies has brought a revolution in heterocyclic synthesis. Green synthesis has bypassed the classical procedures involving toxic/hazardous solvents or catalysts and improved the current environmental safety standards by many folds. Green chemistry research has continuously made significant contributions to the development of heterocyclic scaffolds both at laboratory and commercial scales. Researchers are continuously developing and exploring the principles of green chemistry for the development of novel therapeutic agents. Quinoxaline lies in the category of versatile heterocyclic motifs, which possesses a wide diversity in its derivatives as well as a broad profile of its therapeutic potential. In the past decades, many new green synthetic protocols have been developed and employed successfully for the synthesis of quinoxaline derivatives. These include the use of reusable nanocatalysts, polymers, various green solvents, tonsils, catalysts, water as a catalyst, microwave irradiation, ultrasonic waves, non-toxic metal catalysts, surfactants, etc. The present review focuses on various green synthetic procedures reported for quinoxalines along with the specializations and applications of the reactions.
喹恶啉衍生物的绿色环保合成策略
绿色合成方法的进步给杂环合成带来了一场革命。绿色合成绕过了涉及有毒/有害溶剂或催化剂的传统程序,并将目前的环境安全标准提高了许多倍。绿色化学研究不断为杂环支架在实验室和商业规模上的发展做出重大贡献。研究人员不断开发和探索绿色化学的原理,以开发新的治疗药物。喹诺啉属于多用途杂环基序,其衍生物种类繁多,具有广泛的治疗潜力。在过去的几十年里,许多新的绿色合成方案被开发出来并成功地应用于喹诺啉衍生物的合成。这些包括使用可重复使用的纳米催化剂、聚合物、各种绿色溶剂、扁桃体、催化剂、水作为催化剂、微波辐射、超声波、无毒金属催化剂、表面活性剂等。本文综述了喹诺啉类化合物的各种绿色合成方法,以及这些合成方法的特点和应用。
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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来源期刊
Current Green Chemistry
Current Green Chemistry CHEMISTRY, MULTIDISCIPLINARY-
CiteScore
4.30
自引率
13.60%
发文量
6
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