Pore size matters!-a critical review on the supercapacitive charge storage enhancement of biocarbonaceous materials

doi:10.1080/10408436.2022.2027225

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	Pore size matters!-a critical review on the supercapacitive charge storage enhancement of biocarbonaceous materials
	Krishnan, Syam G.5; Arulraj, Arunachalam 5; Jagadish, Priyanka 5; Khalid, Mohammad 5; Nasrollahzadeh, Mahmoud 6; Fen, Ran 2; Yang, Chun-Chen 3; Hegde, Gurumurthy 1,4
刊名	CRITICAL REVIEWS IN SOLID STATE AND MATERIALS SCIENCES
	2022
关键词	Biowaste bio-derived carbons porosity electrolyte selection supercapacitors
ISSN号	1040-8436
DOI	10.1080/10408436.2022.2027225
英文摘要	A circular economy targets zero waste converting both natural and synthetic wastes to valuable products, thereby promoting sustainable development. The porous nanocarbon synthesized from bio-waste is one such product used in applications such as energy storage, catalysis, and sensors. Different techniques are employed for synthesizing carbon from the biowastes and each route results in different properties toward end-user applications. Among them, surface area and porosity are the two critical factors that influence the energy storage capabilities of these synthesized carbon nanostructures. Besides the high surface area of the bio-derived carbons, the hindrance in supercapacitive performance is owing to its low porosity. Fewer review/research papers report the porosity tuning of these carbons for their influence on enhancing the performance of energy storage devices (supercapacitors). This critical review analyses the importance of porosity in these bio-derived carbons and reviews the recent development in its synthesis techniques along with its improvement in the energy storage capability. Special attention is also delivered to identify the ambient source of biowaste for carbon electrodes (fabrication) in supercapacitors. The recent research progress in tuning the porosity of these bio-derived carbons and the influence of electrolyte with porosity in affecting its supercapacitive energy storage is elucidated here. The research challenges, future research recommendations, and opportunities in the synthesis of bio-derived porous carbon for supercapacitor applications are briefed.
WOS研究方向	Materials Science ; Physics
语种	英语
出版者	TAYLOR & FRANCIS INC
WOS记录号	WOS:000746764400001
内容类型	期刊论文
源URL	[http://ir.lut.edu.cn/handle/2XXMBERH/154858]
专题	兰州理工大学
作者单位	1.CHRIST Deemed Univ, Dept Chem, Bangalore, Karnataka, India 2.Lanzhou Univ Technol, Sch Mat Sci & Engn, Lanzhou, Peoples R China; 3.Ming Chi Univ Technol, Battery Res Ctr Green Energy, New Taipei, Taiwan; 4.CHRIST Deemed Univ, Ctr Adv Res & Dev Card, Bangalore, Karnataka, India; 5.Sunway Univ, Sch Engn & Technol, Graphene & Adv 2D Mat Res Grp, Petaling Jaya, Selangor, Malaysia; 6.Univ Qom, Fac Sci, Dept Chem, Qom, Iran;
推荐引用方式 GB/T 7714	Krishnan, Syam G.,Arulraj, Arunachalam,Jagadish, Priyanka,et al. Pore size matters!-a critical review on the supercapacitive charge storage enhancement of biocarbonaceous materials[J]. CRITICAL REVIEWS IN SOLID STATE AND MATERIALS SCIENCES,2022.
APA	Krishnan, Syam G..,Arulraj, Arunachalam.,Jagadish, Priyanka.,Khalid, Mohammad.,Nasrollahzadeh, Mahmoud.,...&Hegde, Gurumurthy.(2022).Pore size matters!-a critical review on the supercapacitive charge storage enhancement of biocarbonaceous materials.CRITICAL REVIEWS IN SOLID STATE AND MATERIALS SCIENCES.
MLA	Krishnan, Syam G.,et al."Pore size matters!-a critical review on the supercapacitive charge storage enhancement of biocarbonaceous materials".CRITICAL REVIEWS IN SOLID STATE AND MATERIALS SCIENCES (2022).