Yakub Banothu, Swapna Peravali, D. V. Rama, Koti Reddy, CH.D. Uma Sankar, S. R. Srither, P. S. S. Babu, Syed Shameem
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引用次数: 0
摘要
农业废弃物衍生的多孔碳和蔬菜废弃物衍生的多孔碳材料因其丰富性和可持续复制性,已被广泛研究用作高性能超级电容器的电极材料。本文的重点是利用主要副产品茄子废料作为前体,通过简单的碳化和活化过程生产多孔碳。然后将得到的多孔碳用作超级电容器的电极材料。从茄子废料中提取的多孔碳的表面积高达 1095.4 m2 g-1。与从农业废弃物中提取的材料相比,这种碳材料具有成本低、环保的优点,同时还表现出卓越的电化学性能。由茄子制成的碳电极的能量密度为 9.19 Wh Kg-1,功率密度为 2880 W Kg-1,表明其具有出色的储能能力。
Biodegradable Activated Carbon Material Derived from Eggplant Waste for Enhanced Supercapacitor Performance
Agricultural-waste-derived porous carbon and vegetable-waste-derived porous carbon materials have been extensively studied as electrode materials for high-performance supercapacitors due to their abundance and ability to be consistently reproduced. This paper focuses on utilizing eggplant waste, the primary by-product, as a precursor for producing porous carbon through the easy carbonization and activation process. The resultant porous carbon is then employed as an electrode material for supercapacitors. The Eggplant waste-derived porous carbon exhibits a notable surface area of 1095.4 m2 g-1. This carbon material possesses the benefits of being cost-effective and environmentally friendly while exhibiting superior electrochemical performance in comparison to materials obtained from agricultural waste. The carbon electrode made from eggplant demonstrates an energy density of 9.19 Wh Kg-1 and a power density of 2880 W Kg-1, indicating its outstanding energy storage capacity.