The insight of self-doped phosphorus on the biocarbon substrate: Co3O4 nanocrystals anchored on porous carbon derived from Manila grass for supercapacitor electrode with long life

Sun D. ¹Huang J. ¹Tao X. ¹Zhao Y. ¹Gao W. ¹Lian J. ¹Sun J. ¹Xie A. ¹He L.²

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作者信息

1. Key Laboratory of Functional Materials and Applications of Fujian Province School of Materials Science and Engineering Xiamen University of Technology
2. Fujian Key Laboratory of Photoelectronic Functional Materials College of Materials Science and Engineering Huaqiao University
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Abstract

? 2021A novel hive-like Co3O4 @C composite is synthesized solvothermally and calcinated using Manila grass as an interesting precursor of porous carbonous skeleton with self-doped phosphorus and oxygen, anchored by Co3O4 nanocryclusters through the sites rich in doped atoms. The capacitance of the as-fabricated materials is 767.6 F·g?1 (1 A·g?1) with long life of 96.2% retention after 12,000 cycles, according with the phosphorus content in composites. Moreover, the supercapacitor is assembled by KC-600 (+) and active-carbon (–) delivers an energy density of 81.42 Wh·kg–1 at 875 W·kg–1 and satisfactory cycling stabilities (9.17% lost after 24,000 cycles), owing to its unique microstructure and the self-doped phosphorus of Manila grass. Therefore, the porous hive-like Co3O4 @C composite can better achieve as an electrode material through an easy and eco-friendly process based on biocarbon for the energy storage devices in the future.

Key words

Anchoring mechanism/Bio-carbon substrate/Cobalt oxide (Co3O4)/Self-doped phosphorus/Supercapacitor

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出版年

2022

Journal of Alloys and Compounds

EISCI

ISSN：0925-8388

被引量6

参考文献量43

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