H. Chen, Long Chen, Peirong Qi, G. Wang, Lei Shi, Xiantao Feng, Feng Yu
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引用次数: 2
Abstract
We conducted experiments in producing nitrogen-doped carbon foam using pomelo peels as a raw material. Pomelos are a citrus fruit similar in appearance to grapefruit, and native to South and Southeast Asia. Specifically, we fabricated nitrogen-doped pomelo peel derived carbon foam (N-PPCF) by using an ammonia gas treatment. The as-prepared N-PPCF had a high specific surface area of 1,218.5 m2 g−1, an average pore size of 1.36 nm, and a pore volume value of 0.50 cm3 g−1. Additionally, the N-PPCF had a nitrogen content of 8.1%, allowing for a high specific capacitance of 150.1 F g−1 at a density of 1.0 A g−1. Even at 4 A g−1, the N-PPCF still maintained an ideal capacitance of 115.6 F g−1. Ultimately, we believe that nitrogen doped carbon foam is a potential method for treating pomelo peels, and that N-PPCF can function as a potential binder-free supercapacitor electrode.
我们以柚子皮为原料进行了制备氮掺杂碳泡沫的实验。柚子是一种外观类似葡萄柚的柑橘类水果,原产于南亚和东南亚。具体而言,我们通过使用氨气处理制备了氮掺杂柚子皮衍生碳泡沫(N-PPCF)。所制备的N-PPCF具有1218.5 m2 g−1的高比表面积、1.36 nm的平均孔径和0.50 cm3 g−1。此外,N-PPCF的氮含量为8.1%,允许在1.0 a g−1的密度下具有150.1 F g−1高的比电容。即使在4 A g−1的情况下,N-PPCF仍保持115.6 F g−1理想电容。最终,我们相信氮掺杂的碳泡沫是一种潜在的处理柚子皮的方法,并且N-PPCF可以作为一个潜在的无粘合剂超级电容器电极。
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