Fabrication and electrochemical evaluation of polyhedral PANI‐coated Co3O4 electrode for supercapacitor application

Abstract

AbstractIn this work, conducting polymer modification on metal oxide surfaces was targeted to improve the composite conductivity and stability for electrochemical energy storage applications. Polyhedral cobalt oxide (Co3O4) was prepared using a molten salt combustion method and coated with polyaniline (PANI). The composite (PANI‐CoM) was characterized using XRD, TGA, FTIR, FESEM, TEM, and BET. From cyclic voltammetry analysis in 6 M KOH, PANI‐CoM shows a high CS (985 F/g) compared to bare Co3O4 (278 F/g), indicating that PANI coating has improved pseudocapacitive charge storability of the electrode. The electrolyte diffusion on the internal active surfaces has increased from 11% to 31%, contributed by the reduction of internal resistance by 29%. Activated carbon and ordered mesoporous carbon (OMC) were used to manufacture two sets of asymmetrical supercapacitor devices, and PANI‐CoM/OMC functioned the best performance with an ED of 22 Wh/kg at a PD of 400 W/kg.