Research progress in the preparation of lignin-based carbon nanofibers for supercapacitors using electrospinning technology: A review

With the development of renewable energy technologies, the demand for efficient energy storage systems is growing. Supercapacitors have attracted considerable attention as efficient electrical energy storage devices because of their excellent power density, fast charging and discharging capabilities...

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Veröffentlicht in:	International journal of biological macromolecules 2024-07, Vol.273 (Pt 2), p.133037, Article 133037
Hauptverfasser:	Cao, Qiping, Zhu, Hongwei, Xu, Jingyu, Zhang, Mingyu, Xiao, Tianyuan, Xu, Shuangping, Du, Boyu
Format:	Artikel
Sprache:	eng
Schlagworte:	Electrospinning Lignin-based carbon nanofibers Supercapacitors
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container_issue	Pt 2
container_start_page	133037
container_title	International journal of biological macromolecules
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creator	Cao, Qiping Zhu, Hongwei Xu, Jingyu Zhang, Mingyu Xiao, Tianyuan Xu, Shuangping Du, Boyu
description	With the development of renewable energy technologies, the demand for efficient energy storage systems is growing. Supercapacitors have attracted considerable attention as efficient electrical energy storage devices because of their excellent power density, fast charging and discharging capabilities, and long cycle life. Carbon nanofibers are widely used as electrode materials in supercapacitors because of their excellent mechanical properties, electrical conductivity, and light weight. Although environmental factors are increasingly driving the application of circular economy concepts in materials science, lignin is an underutilized but promising environmentally benign electrode material for supercapacitors. Lignin-based carbon nanofibers are ideal for preparing high-performance supercapacitor electrode materials owing to their unique chemical stability, abundance, and environmental friendliness. Electrospinning is a well-known technique for producing large quantities of uniform lignin-based nanofibers, and is the simplest method for the large-scale production of lignin-based carbon nanofibers with specific diameters. This paper reviews the latest research progress in the preparation of lignin-based carbon nanofibers using the electrospinning technology, discusses the prospects of their application in supercapacitors, and analyzes the current challenges and future development directions. This is expected to have an enlightening effect on subsequent research. [Display omitted]
doi_str_mv	10.1016/j.ijbiomac.2024.133037
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Supercapacitors have attracted considerable attention as efficient electrical energy storage devices because of their excellent power density, fast charging and discharging capabilities, and long cycle life. Carbon nanofibers are widely used as electrode materials in supercapacitors because of their excellent mechanical properties, electrical conductivity, and light weight. Although environmental factors are increasingly driving the application of circular economy concepts in materials science, lignin is an underutilized but promising environmentally benign electrode material for supercapacitors. Lignin-based carbon nanofibers are ideal for preparing high-performance supercapacitor electrode materials owing to their unique chemical stability, abundance, and environmental friendliness. Electrospinning is a well-known technique for producing large quantities of uniform lignin-based nanofibers, and is the simplest method for the large-scale production of lignin-based carbon nanofibers with specific diameters. This paper reviews the latest research progress in the preparation of lignin-based carbon nanofibers using the electrospinning technology, discusses the prospects of their application in supercapacitors, and analyzes the current challenges and future development directions. This is expected to have an enlightening effect on subsequent research. 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subjects	Electrospinning Lignin-based carbon nanofibers Supercapacitors
title	Research progress in the preparation of lignin-based carbon nanofibers for supercapacitors using electrospinning technology: A review
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