Facile synthesis of MgO-carbon nanocomposites for advanced capacitive electrode materialsAniruddha Mondal, Mohd Afzal, and Sudip Mondal Department of Chemical Engineering and Biotechnology, Tatung University, Chungshan North Rd, Taipei City, Taiwan
E-mail: aniruddhacsmcri@gmail.com Received: 6 October 2023 Accepted: 25 March 2024 Abstract: The current study aims to develop a unique approach for constructing an asymmetric supercapacitor utilizing a nanocomposite of MgO-carbon as electrode material. The geometrical surface area of the MgO-carbon has shown to be highly porous with different porosities, and the value is 210 m2g−1. This supercapacitor operates with an aqueous electrolyte consisting of 1 M KOH. The findings indicate that the test cell exhibited exceptional electrochemical output within the voltage range of 0 to 1 V. The capacitance of the MgO-carbon cell is measured to be 225 F g−1 at a current density of 2 A g−1. According to research on cycling, the aforementioned cell has demonstrated the ability to maintain 97% of its original capacitance following 20,000 cycles. The findings of this study suggest that the MgO-carbon holds promise as an electrode material for the development of environmentally friendly and cost-effective energy storage devices. This composite exhibit excellent energy and power densities, along with a prolonged cycle life. Keywords: Supercapacitor; Electrochemistry; EDLC; Energy storage; MgO; Carbon Full paper is available at www.springerlink.com. DOI: 10.1007/s11696-024-03445-y
Chemical Papers 78 (8) 4961–4970 (2024) |
Sunday, June 30, 2024 
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