木质素及其复合材料在超级电容器中的应用

IF 2.6 4区 化学 Q3 CHEMISTRY, PHYSICAL
Ionics Pub Date : 2025-05-28 DOI:10.1007/s11581-025-06426-7
Huseyin Uşan, S. Esra Bolsu Kariper, I. Afşin Kariper, Dilek İmren Koç
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引用次数: 0

摘要

本研究探讨了木质素如何在超级电容器和电池应用中使用。综述了木质素和木质素基复合材料的合成、结构特性和电化学性能,以及在超级电容器和电池中的应用进展。本文首先回顾了超级电容器的基本原理,概述了木质素的特性,同时详细回顾了它们在各种储能系统中的应用。重点是木质素衍生的多孔结构,导电聚合物复合材料和混合材料,特别是在能量存储和超级电容器方面。文献综述表明,木质素基材料具有高电荷存储容量、成本效益和环境可持续性等显著优势。虽然关于木质素的研究很少,但本研究将通过巩固研究成果,填补知识空白,指导未来的研究,加速木质素在储能技术中的实际应用,为该领域做出贡献。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Lignin and its composites for supercapacitor applications

Lignin and its composites for supercapacitor applications

This study examines how lignin has been used in supercapacitor and battery applications. The review highlights the synthesifs of lignin and lignin-based composite materials, their structural properties and electrochemical performances, and recent developments in supercapacitor and battery applications. The review initially reviews the fundamentals of supercapacitors and outlines the properties of lignin while providing a detailed review of their applications in various energy storage systems. The focus is on lignin-derived porous structures, conductive polymer composites, and hybrid materials, particularly in energy storage and supercapacitors. The literature review concludes that lignin-based materials offer significant advantages such as high charge storage capacity, cost-effectiveness, and environmental sustainability. Although there are few studies on lignin, this study will contribute to the field by consolidating the findings, filling the knowledge gaps, and guiding future research to accelerate the practical use of lignin in energy storage technologies.

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来源期刊
Ionics
Ionics 化学-电化学
CiteScore
5.30
自引率
7.10%
发文量
427
审稿时长
2.2 months
期刊介绍: Ionics is publishing original results in the fields of science and technology of ionic motion. This includes theoretical, experimental and practical work on electrolytes, electrode, ionic/electronic interfaces, ionic transport aspects of corrosion, galvanic cells, e.g. for thermodynamic and kinetic studies, batteries, fuel cells, sensors and electrochromics. Fast solid ionic conductors are presently providing new opportunities in view of several advantages, in addition to conventional liquid electrolytes.
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