Recent progress on supercapacitive performance of agrowaste fibers: a review

The waste-to-wealth practice has evolved into the circular economy concept, in which every by-product is converted into a usable product, enabling the concept of zero-waste. As a result, research on converting wastes, particularly bio and agricultural wastes, into usable products is prioritized. Act...

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Main Authors: Subramaniam T., Krishnan S.G., Ansari M.N.M., Hamid N.A., Khalid M.
Other Authors: 57555444100
Format: Review
Published: Taylor and Francis Ltd. 2024
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Institution: Universiti Tenaga Nasional
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spelling my.uniten.dspace-346922024-10-14T11:21:47Z Recent progress on supercapacitive performance of agrowaste fibers: a review Subramaniam T. Krishnan S.G. Ansari M.N.M. Hamid N.A. Khalid M. 57555444100 56211314600 55489853600 6604077116 36945624700 Activated carbon biomass electric double layer capacitor electrochemical characterization supercapacitor Activated Carbon Agriculture Cellulose Electrodes Fibers Fuel Cells Activated carbon Agricultural wastes Agriculture Cellulose Electrodes Fibers Fuel cells Wood Agro-wastes Bioresource Circular economy Electrochemical characterizations Performance Physical process Recent progress Supercapacitor electrodes Waste to wealth Zero waste Supercapacitor The waste-to-wealth practice has evolved into the circular economy concept, in which every by-product is converted into a usable product, enabling the concept of zero-waste. As a result, research on converting wastes, particularly bio and agricultural wastes, into usable products is prioritized. Activated carbons are one of these products, which are derived through a variety of physical and chemical processes from agricultural and biowaste. These activated carbons have applications in various fields, including energy storage, catalysis, and water purification. However, the quality of this activated carbon is dependent on the bioresource's structure and chemical composition. As a result, many sources to produce activated carbon, including stems, wood, leaves, root, bark, fiber, flower, and seeds, have been identified and are being explored for their potential use as an electrode material for supercapacitors. Out of these sources, fiber from different bioresources shows improved performance as supercapacitor electrodes due to their higher cellulose and lignin contents. In this study, we systematically review various sources of activated carbon and their performance as supercapacitor electrodes. The electrochemical characterization methodologies used to characterize this fiber-based activated carbon are examined critically, and factors influencing its improved/poor performance are collated. Additionally, the most performing fiber-based sources of activated carbon for supercapacitor electrodes are identified, along with a future perspective. � 2022 Taylor & Francis Group, LLC. Final 2024-10-14T03:21:47Z 2024-10-14T03:21:47Z 2023 Review 10.1080/10408436.2022.2052797 2-s2.0-85127245134 https://www.scopus.com/inward/record.uri?eid=2-s2.0-85127245134&doi=10.1080%2f10408436.2022.2052797&partnerID=40&md5=b994f6bd8e3b54cea39d69ddcfb04a2f https://irepository.uniten.edu.my/handle/123456789/34692 48 2 289 331 Taylor and Francis Ltd. Scopus
institution Universiti Tenaga Nasional
building UNITEN Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Tenaga Nasional
content_source UNITEN Institutional Repository
url_provider http://dspace.uniten.edu.my/
topic Activated carbon
biomass
electric double layer capacitor
electrochemical characterization
supercapacitor
Activated Carbon
Agriculture
Cellulose
Electrodes
Fibers
Fuel Cells
Activated carbon
Agricultural wastes
Agriculture
Cellulose
Electrodes
Fibers
Fuel cells
Wood
Agro-wastes
Bioresource
Circular economy
Electrochemical characterizations
Performance
Physical process
Recent progress
Supercapacitor electrodes
Waste to wealth
Zero waste
Supercapacitor
spellingShingle Activated carbon
biomass
electric double layer capacitor
electrochemical characterization
supercapacitor
Activated Carbon
Agriculture
Cellulose
Electrodes
Fibers
Fuel Cells
Activated carbon
Agricultural wastes
Agriculture
Cellulose
Electrodes
Fibers
Fuel cells
Wood
Agro-wastes
Bioresource
Circular economy
Electrochemical characterizations
Performance
Physical process
Recent progress
Supercapacitor electrodes
Waste to wealth
Zero waste
Supercapacitor
Subramaniam T.
Krishnan S.G.
Ansari M.N.M.
Hamid N.A.
Khalid M.
Recent progress on supercapacitive performance of agrowaste fibers: a review
description The waste-to-wealth practice has evolved into the circular economy concept, in which every by-product is converted into a usable product, enabling the concept of zero-waste. As a result, research on converting wastes, particularly bio and agricultural wastes, into usable products is prioritized. Activated carbons are one of these products, which are derived through a variety of physical and chemical processes from agricultural and biowaste. These activated carbons have applications in various fields, including energy storage, catalysis, and water purification. However, the quality of this activated carbon is dependent on the bioresource's structure and chemical composition. As a result, many sources to produce activated carbon, including stems, wood, leaves, root, bark, fiber, flower, and seeds, have been identified and are being explored for their potential use as an electrode material for supercapacitors. Out of these sources, fiber from different bioresources shows improved performance as supercapacitor electrodes due to their higher cellulose and lignin contents. In this study, we systematically review various sources of activated carbon and their performance as supercapacitor electrodes. The electrochemical characterization methodologies used to characterize this fiber-based activated carbon are examined critically, and factors influencing its improved/poor performance are collated. Additionally, the most performing fiber-based sources of activated carbon for supercapacitor electrodes are identified, along with a future perspective. � 2022 Taylor & Francis Group, LLC.
author2 57555444100
author_facet 57555444100
Subramaniam T.
Krishnan S.G.
Ansari M.N.M.
Hamid N.A.
Khalid M.
format Review
author Subramaniam T.
Krishnan S.G.
Ansari M.N.M.
Hamid N.A.
Khalid M.
author_sort Subramaniam T.
title Recent progress on supercapacitive performance of agrowaste fibers: a review
title_short Recent progress on supercapacitive performance of agrowaste fibers: a review
title_full Recent progress on supercapacitive performance of agrowaste fibers: a review
title_fullStr Recent progress on supercapacitive performance of agrowaste fibers: a review
title_full_unstemmed Recent progress on supercapacitive performance of agrowaste fibers: a review
title_sort recent progress on supercapacitive performance of agrowaste fibers: a review
publisher Taylor and Francis Ltd.
publishDate 2024
_version_ 1814061190596263936