Preparation of activated carbon derived from carrot peel for supercapacitor applications

Preparation of activated carbon derived from carrot peel for supercapacitor applications

Supercapacitor is an energy storage that stores electrical energy through electrostatic charge. It consists of two electrons in contact with electrolyte solutions. Due to the environmental pollution, there was an investigation of using biomass waste as a possible resource for the preparation of the...

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Bibliographic Details
Main Author: Shahrolnizam, Nurul Husni Shawani
Format: Student Project
Language:en
Published: 2025
Subjects:
Electrostatics
Online Access:https://ir.uitm.edu.my/id/eprint/125182/1/125182.pdf
https://ir.uitm.edu.my/id/eprint/125182/
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Summary:Supercapacitor is an energy storage that stores electrical energy through electrostatic charge. It consists of two electrons in contact with electrolyte solutions. Due to the environmental pollution, there was an investigation of using biomass waste as a possible resource for the preparation of the activated carbon. This research objectives are to prepare a high surface area activated carbon from carrot peel for supercapacitor applications and to study the energy density and specific capacitance of supercapacitor derived from carrot peel. In this research, carrot peels undergo systematic process including pre-treatment, carbonization, activation and post-treatment that then followed with electrode fabrication and performance evaluation. The activated was distributed into three samples that undergo carbonization process for 300˚C in different period (AC-2 for 2 hours, AC-3 for 3 hours and AC-4 for 4 hours). This process used KOH as activating agent. The synthesized activated carbon demonstrates a carbon yield of 33.33% for AC-2, 30.07% for AC-3 and 28.82% for AC-4 indicating the efficiency process with an ash content of 0.32% that reflects the inorganic residue. Electrochemical analysis revealed that AC-2, AC-3 and AC-4 achieved capacitances of 8.2 F, 30.0 F and 31.0 F respectively. The value of specific capacitances that AC-2 reached was 546.7 F, 1892.74 F for AC-3 and 2080.54 F for AC-4. Energy densities were gained at 3.04 Wh/kg for AC-2, 10.54 Wh/kg for AC-3 and 11.56 Wh/kg for AC-4. Sample AC-4 shows the best results because it reached the highest energy density and specific capacitance. Overall, this research has validated the potential of carrot peel derived activated carbon as an achievable and sustainable electrode material for advanced energy storage applications.

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