期刊
CARBON
卷 201, 期 -, 页码 449-459出版社
PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.carbon.2022.09.051
关键词
Fullerene; Hybrid crystals; Supercapacitor
Hybrid crystals with high porosity and increased surface area were prepared by combining fullerene C60 and its derivative PCBM, making them suitable as electrode materials in supercapacitors.
Owning a highly symmetric geometry, fullerenes are popular building blocks in nanoarchitectonics. The suc-cessful preparation of fullerene superstructures with various sizes and dimensions forms the basis for their ap-plications. However, the lack of porosity and the limited electrical conductivity of most fullerene superstructures prevent their applications in energy-related fields such as supercapacitors. Herein, hybrid crystals with a crossed -tubular morphology and a hexagonal close packed (hcp) lattice were constructed by fullerene C60 and its de-rivative, [6,6]-phenyl-C61-butyric acid methyl ester (PCBM), through a modified liquid-liquid interfacial pre-cipitation method. Subsequent calcination can greatly improve the porosity of this hybrid crystals and produce mesoporous carbon with an increased BET surface area nearly 30 times (from 13.91 to 432.41 m2 g-1), which exhibited a good performance as an electrode material in supercapacitor with a capacitance retention rate of 87.3% after 2000 cycles and specific capacitances of-213 F g-1 at 5 mV s-1 and-158 F g-1 at 1 A g-1, respectively. Compared to the crystals formed solely by fullerenes, the presence of PCBM lowered the calcination temperature and induced self-doping of oxygen. In addition, rough surfaces could be produced on the super-structures by solvent etching, which increased as well the performance of the material in supercapacitor. Our work provided a new strategy to engineer fullerene-derived functional materials for applications in energy storage and expanded the knowledge on the factors regulating their performance when using as electrode ma-terials in supercapacitors.
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