4.7 Article

Assembly of high-performance hybrid supercapacitors using FeCo2O4 microflowers as battery-type cathode materials

Journal

CERAMICS INTERNATIONAL
Volume 49, Issue 7, Pages 10411-10419

Publisher

ELSEVIER SCI LTD
DOI: 10.1016/j.ceramint.2022.11.223

Keywords

Wet chemical synthesis; Hybrid supercapacitors; Electrode materials

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FeCo2O4 microflowers (MFs) and microparticles (MPs) were prepared at different temperatures using a wet chemical method. The MFs and MPs had large specific surface area and mesopores. The FeCo2O4 MFs delivered a higher specific capacity than the FeCo2O4 MPs. A hybrid supercapacitor (HSC) device was assembled with FeCo2O4 as cathode and activated carbon as anode. The FeCo2O4 MFs//AC HSC showed higher capacity and energy density than the FeCo2O4 MPs//AC HSC. Both HSCs exhibited little capacity decay after 3000 cycles.
In this work, FeCo2O4 microflowers (MFs) and microparticles (MPs) were respectively prepared at different temperatures via a wet chemical method, along with a post annealing treatment in air. These MFs and MPs exhibited huge specific surface area and a large number of mesopores. Several electrochemical tests were conducted in a three-electrode configuration. The FeCo2O4 MFs delivered a specific capacity of 301.3C g-1, higher than 253.9C g-1 for FeCo2O4 MPs. A hybrid supercapacitor (HSC) device was assembled with FeCo2O4 as cathode and activated carbon (AC) as anode to investigate the practical applications in electrochemical energy storage. The FeCo2O4 MFs//AC HSC delivered a capacity of 107.2C g-1 at 1 A g-1 and an energy density (Ed) of 25.7 W h kg-1 at 862.6 W kg-1, respectively, while the FeCo2O4 MPs//AC HSC showed an Ed of 23.8 W h kg-1 at the power density (Pd) of 878.9 W kg-1. The two HSCs showed little capacity decay after 3000 cycles at 6 A g-1. The capacity of FeCo2O4 MFs and the obtained Ed of HSC were in a high status among those of transition metal oxides (TMOs)-based electrodes reported earlier. The current synthetic strategy can be used as a reference to the synthesis of other similar electrochemical materials for HSC electrodes.

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