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Synthesis of anthraquinone-based electroactive polymers: a critical review
Materials Today Sustainability ( IF 7.8 ) Pub Date : 2019-05-21 , DOI: 10.1016/j.mtsust.2019.100019
G. Zarren , B. Nisar , F. Sher

Conducting polymers or synthetic monomers have revolutionized the world and are at the heart of scientific research having a scope of vast diverse applications in many technological fields. The conducting and redox polymers have been investigated as energy storage systems because of their better sustainability, ease of synthesis, and environmental compatibility. Owing to the conducting properties of quinones, they gain too much importance among the researchers. Keeping in view the importance and sustainability of conducting polymers, for the first time, this study compiles a detailed overview of synthetic approaches followed by investigations on electrochemical properties and future directions. This study critically examines the synthetic process of simple monomers, substituted monomers, and polymers of anthraquinone (AQ) under the classification of low- and high-molecular-weight AQ–based derivatives, their working principles, and their electrochemical applications, which enable us to explore their novel possible application in automotive, solar cell devices, aircraft aileron, and biomedical equipment. Irrefutably, we confirm that high-molecular-weight polymeric AQ compounds are best in comparison with low-molecular-weight AQ monomers because they have pre-eminent properties over monomeric systems. Because of the significant properties of AQ, polymeric systems are high demanding and have emerged as a hot topic among the researchers these days. In the current scenario, this study is of immense importance because it identifies and discusses the right and sustainable combination and paves the way to utilize these novel materials in different technologies.



中文翻译:

蒽醌基电活性聚合物的合成:一项重要综述

导电聚合物或合成单体已彻底改变了世界,并成为科学研究的中心,在许多技术领域中都有广泛的应用范围。导电和氧化还原聚合物由于具有更好的可持续性,易于合成和环境相容性,因此已被研究为能量存储系统。由于醌的导电特性,它们在研究人员中变得越来越重要。考虑到导电聚合物的重要性和可持续性,本研究首次汇编了合成方法的详细概述,随后研究了电化学性能和未来方向。这项研究严格审查了简单单体,取代单体,低和高分子量基于AQ的衍生物的分类及其蒽醌(AQ)聚合物,它们的工作原理和电化学应用,这使我们能够探索它们在汽车,太阳能电池设备,飞机上的新颖应用副翼和生物医学设备。不可避免地,我们确认与低分子量AQ单体相比,高分子量聚合AQ化合物是最佳的,因为它们比单体体系具有卓越的性能。由于AQ的显着特性,聚合物系统的要求很高,并且近来已成为研究人员的热门话题。在当前情况下,

更新日期:2019-05-21
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