The Performance of Chitosan-based Activated Carbon for Supercapacitor Applications towards Sustainable Energy Technologies
In sustainable technologies, the application of supercapacitors (SC) for energy conversion and storage systems is rapidly increasing. Supercapacitors are widely employed in applications that require fast charge and discharge phases, such as in the automobile industry, where they are utilized in ener...
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my.uniten.dspace-341582024-10-14T11:18:12Z The Performance of Chitosan-based Activated Carbon for Supercapacitor Applications towards Sustainable Energy Technologies Abu S.M. Ansari M.N.M. Al-Shetwi A.Q. Muttaqi K.M. Hannan M.A. 58116063000 55489853600 57004922700 55582332500 7103014445 Activated carbon activation aqueous electrolyte biodegradable biomass Chitosan electrochemical electrode energy storage materials performancem power supercapacitor temperature Activated carbon Automotive industry Biodegradability Biomass Chemical activation Chitosan Chlorine compounds Electric discharges Electrochemical electrodes Electrolytes Energy storage Fabrication Pore size Potassium hydroxide Scanning electron microscopy Storage (materials) Supercapacitor Aqueous electrolyte Biodegradable Conductivity Electrochemical characterizations Electrochemicals Performance Power Supercapacitor electrodes Symmetrics Two-electrode systems Capacitance In sustainable technologies, the application of supercapacitors (SC) for energy conversion and storage systems is rapidly increasing. Supercapacitors are widely employed in applications that require fast charge and discharge phases, such as in the automobile industry, where they are utilized in energy storage. Chitosan (CS) is a natural polymer material utilized in supercapacitor fabrication. Interest in supercapacitors is due to their high-energy capacity, storage for a shorter period, and longer lifetime. In this research, the fabrication of symmetric supercapacitors with activated carbon (AC) electrodes has been investigated in order to analyze their performance characteristics. AC is derived from CS biomass, which has remarkable biodegradability. It has been chemically activated using ZnCl2 as the activating agent. CS has been activated inside a furnace at 500, 600, and 700 �C in an inert N2 atmosphere. A 1M aqueous potassium hydroxide (KOH) solution is used as the electrolyte. The test using electrolytes (KOH) revealed that the electrode's specific capacitance was 74.7 Fg-1, the highest value discovered. However, using organic electrolytes would have produced better results that can be used as a guide for future advancements. The influence of activation temperature on the porous characteristics of prepared AC was investigated utilizing surface area and pore size analyses. The morphological characteristics of synthesized AC were analyzed through scanning electron microscopy (SEM) and Energy Dispersive X-Ray Analysis (EDX). Symmetric SC electrodes fabricated is analyzed in a two-electrode system applying standard electrochemical characterization methods using the potentiostat. Symmetric SC electrodes fabricated are analyzed in a two-electrode system applying standard electrochemical characterization methods using the potentiostat. � 1972-2012 IEEE. Final 2024-10-14T03:18:12Z 2024-10-14T03:18:12Z 2023 Conference Paper 10.1109/TIA.2023.3255215 2-s2.0-85149847825 https://www.scopus.com/inward/record.uri?eid=2-s2.0-85149847825&doi=10.1109%2fTIA.2023.3255215&partnerID=40&md5=262c4101824acebfd6ce16f710f3fe34 https://irepository.uniten.edu.my/handle/123456789/34158 59 3 3133 3141 Institute of Electrical and Electronics Engineers Inc. Scopus |
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Activated carbon activation aqueous electrolyte biodegradable biomass Chitosan electrochemical electrode energy storage materials performancem power supercapacitor temperature Activated carbon Automotive industry Biodegradability Biomass Chemical activation Chitosan Chlorine compounds Electric discharges Electrochemical electrodes Electrolytes Energy storage Fabrication Pore size Potassium hydroxide Scanning electron microscopy Storage (materials) Supercapacitor Aqueous electrolyte Biodegradable Conductivity Electrochemical characterizations Electrochemicals Performance Power Supercapacitor electrodes Symmetrics Two-electrode systems Capacitance |
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Activated carbon activation aqueous electrolyte biodegradable biomass Chitosan electrochemical electrode energy storage materials performancem power supercapacitor temperature Activated carbon Automotive industry Biodegradability Biomass Chemical activation Chitosan Chlorine compounds Electric discharges Electrochemical electrodes Electrolytes Energy storage Fabrication Pore size Potassium hydroxide Scanning electron microscopy Storage (materials) Supercapacitor Aqueous electrolyte Biodegradable Conductivity Electrochemical characterizations Electrochemicals Performance Power Supercapacitor electrodes Symmetrics Two-electrode systems Capacitance Abu S.M. Ansari M.N.M. Al-Shetwi A.Q. Muttaqi K.M. Hannan M.A. The Performance of Chitosan-based Activated Carbon for Supercapacitor Applications towards Sustainable Energy Technologies |
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In sustainable technologies, the application of supercapacitors (SC) for energy conversion and storage systems is rapidly increasing. Supercapacitors are widely employed in applications that require fast charge and discharge phases, such as in the automobile industry, where they are utilized in energy storage. Chitosan (CS) is a natural polymer material utilized in supercapacitor fabrication. Interest in supercapacitors is due to their high-energy capacity, storage for a shorter period, and longer lifetime. In this research, the fabrication of symmetric supercapacitors with activated carbon (AC) electrodes has been investigated in order to analyze their performance characteristics. AC is derived from CS biomass, which has remarkable biodegradability. It has been chemically activated using ZnCl2 as the activating agent. CS has been activated inside a furnace at 500, 600, and 700 �C in an inert N2 atmosphere. A 1M aqueous potassium hydroxide (KOH) solution is used as the electrolyte. The test using electrolytes (KOH) revealed that the electrode's specific capacitance was 74.7 Fg-1, the highest value discovered. However, using organic electrolytes would have produced better results that can be used as a guide for future advancements. The influence of activation temperature on the porous characteristics of prepared AC was investigated utilizing surface area and pore size analyses. The morphological characteristics of synthesized AC were analyzed through scanning electron microscopy (SEM) and Energy Dispersive X-Ray Analysis (EDX). Symmetric SC electrodes fabricated is analyzed in a two-electrode system applying standard electrochemical characterization methods using the potentiostat. Symmetric SC electrodes fabricated are analyzed in a two-electrode system applying standard electrochemical characterization methods using the potentiostat. � 1972-2012 IEEE. |
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58116063000 |
author_facet |
58116063000 Abu S.M. Ansari M.N.M. Al-Shetwi A.Q. Muttaqi K.M. Hannan M.A. |
format |
Conference Paper |
author |
Abu S.M. Ansari M.N.M. Al-Shetwi A.Q. Muttaqi K.M. Hannan M.A. |
author_sort |
Abu S.M. |
title |
The Performance of Chitosan-based Activated Carbon for Supercapacitor Applications towards Sustainable Energy Technologies |
title_short |
The Performance of Chitosan-based Activated Carbon for Supercapacitor Applications towards Sustainable Energy Technologies |
title_full |
The Performance of Chitosan-based Activated Carbon for Supercapacitor Applications towards Sustainable Energy Technologies |
title_fullStr |
The Performance of Chitosan-based Activated Carbon for Supercapacitor Applications towards Sustainable Energy Technologies |
title_full_unstemmed |
The Performance of Chitosan-based Activated Carbon for Supercapacitor Applications towards Sustainable Energy Technologies |
title_sort |
performance of chitosan-based activated carbon for supercapacitor applications towards sustainable energy technologies |
publisher |
Institute of Electrical and Electronics Engineers Inc. |
publishDate |
2024 |
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1814060062984896512 |