Capacitive property studies of electrochemically synthesized Co3O4 and Mn3O4 on inexpensive stainless steel current collector for supercapacitor application

  • Maile, Nagesh
  • Shinde, S. K.
  • Patil, S. S.
  • Kim, D-Y
  • Fulari, A., V
  • 외 2명
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32
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35

초록

Co3O4 and Mn(3)O(4 )have been considered as pseudocapacitive nanomaterials that are suitable for use in super-capacitors (SCs) because of the apparent role of the surface capacitive current and diffusive intercalation current in their electrical charge storage mechanism. This paper presents a study of the pseudocapacitive current distribution in Co3O4 and Mn3O4 thin films prepared by a simple low-temperature electrodeposition method for binder-free synthesis on inexpensive stainless steel current collectors for cost-effective SC application. After preparation, the thin films were investigated by using various characterization techniques. However, in a single-electrode SC test performed with Co3O4, both surface capacitive and diffusive intercalation currents contributed to the total current during a charging voltammogram scan, with the diffusive current dominating in the oxidation potential region. By contrast, in Mn3O4, a relatively small capacitive current contributed to the total current in a charging voltammogram scan. The pseudocapacitive Co3O4 and Mn3O4 thin films exhibited maximum specific capacitances of 131 and 109 F g(-1) in 2 M KOH and maximum specific discharge capacities of 14.8 and 33.0 mAh g(-1), respectively, which showed their potential for use in energy storage devices.

키워드

Co3O4Mn3O4SupercapacitorPseudocapacitive materialElectrodepositionStainless steel substrateSTATE SYMMETRIC SUPERCAPACITORENERGY-STORAGEPERFORMANCEDEPOSITIONNANOPARTICLESOXIDEELECTRODENANOCRYSTALSCOMPOSITEBATTERY
제목
Capacitive property studies of electrochemically synthesized Co3O4 and Mn3O4 on inexpensive stainless steel current collector for supercapacitor application
저자
Maile, NageshShinde, S. K.Patil, S. S.Kim, D-YFulari, A., VLee, D. S.Fulari, V. J.
DOI
10.1016/j.ceramint.2020.02.265
발행일
2020-07
유형
Article
저널명
Ceramics International
46
10
페이지
14640 ~ 14649