Electrochemical Fabrication of Multicomponent Electrode for Supercapacitors

Increasing operating voltage and capacitance are effective ways to increase energy density for supercapacitors. Electrode materials with a wide energy storage potential window are urgently needed to assemble high-performance symmetric supercapacitors, which are more reliable than asymmetric supercap...

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Bibliographic Details
Published in:Journal of electronic materials 2022-05, Vol.51 (5), p.2004-2013
Main Authors: Yang, Gan, Wang, Lei, Ruan, YunFei, Han, Cai, Shi, FengXiang, Li, Dang
Format: Article
Language:English
Subjects:
Capacitance
Characterization and Evaluation of Materials
Chemistry and Materials Science
Electrochemical fabrication
Electrode materials
Electrodes
Electronics and Microelectronics
Energy storage
Flux density
Hydrogen evolution reactions
Instrumentation
Iron
Manganese dioxide
Materials Science
Optical and Electronic Materials
Review Article
Solid State Physics
Supercapacitors
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Summary:Increasing operating voltage and capacitance are effective ways to increase energy density for supercapacitors. Electrode materials with a wide energy storage potential window are urgently needed to assemble high-performance symmetric supercapacitors, which are more reliable than asymmetric supercapacitors, as the uncertainty of real working potential ranges of the cathode and anode in the operated symmetric supercapacitor can be reduced. In this work, a multicomponent electrode of Na 0.2 MnO 2 /Fe-FeOOH/MnO 2 /REG was fabricated which showed an extended potential window of −1.1 V to 1.25 V for charge storage. Oxygen and hydrogen evolution reactions were restrained by the manganese oxides and iron materials, respectively. The electrode displayed high specific capacitance of 1528 mF cm −2 (611.2 F g −1 ) at a current density of 1 mA cm −2 , with excellent rate capability (87.3% and 66.7% capacitance retention upon 20-fold and 100-fold increased current). The assembled symmetric supercapacitor displayed high energy of 120.5 Wh kg −1 at a high power density of 2.35 kW kg −1 .
ISSN:0361-5235
1543-186X
DOI:10.1007/s11664-022-09511-z