纳米多孔活性炭材料在超级电容器中的应用

C Pub Date : 2023-11-14 DOI:10.3390/c9040109
Chhabi Lal Gnawali, Lok Kumar Shrestha, Jonathan P. Hill, Renzhi Ma, Katsuhiko Ariga, Mandira Pradhananga Adhikari, Rinita Rajbhandari, Bhadra P. Pokharel
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引用次数: 0

摘要

具有高孔隙率和良好孔隙结构的高表面积多孔碳材料是先进超级电容器电极材料的首选。本文报道了一种新型的高孔隙度活性炭材料的电化学超电容性能,该材料是由生物废弃物Terminalia chebula (Harro)种子石制备的,涉及氯化锌(ZnCl2)活化。活化是通过将ZnCl2与哈罗籽粉(1:1 w/w)混合,然后在氮气气氛下在400-700℃下碳化来实现的。所制得的非晶态碳材料具有高比表面积(高达1382.6 m2 g−1),具有良好的微孔和介孔结构,以及含有氧化表面官能团的部分石墨结构,在水电解质(1m硫酸)中具有优异的双电层电容器电极性能。使用具有最佳表面纹理特性的材料制备的电极在三电极电池装置中在1ag−1下获得了328.6 F g−1的大比电容。在50 a g−1电流密度下,该电极的电容保持率为44.7%,即使在10,000次连续充放电循环后,其循环性能也达到98.2%。电化学数据表明,慈兰种子衍生的多孔碳作为高性能储能超级电容器电极材料具有巨大的潜力。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Nanoporous Activated Carbon Material from Terminalia chebula Seed for Supercapacitor Application
High-surface-area porous carbon materials with high porosity and well-defined pore structures are the preferred advanced supercapacitors electrode materials. Here, we report the electrochemical supercapacitive performance of novel high-porosity activated carbon materials prepared from biowaste Terminalia chebula (Harro) seed stones involving zinc chloride (ZnCl2) activation. Activation is achieved by mixing ZnCl2 with Harro seed powder (1:1 w/w) followed by carbonization at 400–700 °C under a nitrogen gas atmosphere. The amorphous carbon materials obtained exhibit excellent performance as electrical double-layer capacitor electrodes in aqueous electrolyte (1 M sulfuric acid) due to high specific surface areas (as high as 1382.6 m2 g−1) based on well-developed micropore and mesopore structures, and partial graphitic structure containing oxygenated surface functional groups. An electrode prepared using material having the optimal surface textural properties achieved a large specific capacitance of 328.6 F g−1 at 1 A g−1 in a three-electrode cell setup. The electrode achieved a good capacitance retention of 44.7% at a high 50 A g−1 current density and outstanding cycling performance of 98.2% even following 10,000 successive charge/discharge cycles. Electrochemical data indicate the significant potential of Terminalia chebula seed-derived porous carbons as high-performance electrode materials for high-energy-storage supercapacitor applications.
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