Effect of annealing temperature on supercapacitive behaviour of manganese dioxide (MnO₂) thin-film prepared by electrodeposition technique and characterization

Abstract: The purpose of this study is to demonstrate the construction of Manganese Dioxide (MnO2) Thin-Film on a stainless-steel substrate (AISI304) using the electrodeposition process. A thin MnO2 layer Potentiostatically formed by electrodeposition technique from MnSO4.H2O (aqueous manganese sulphate monohydrated) solution was used to investigate the electrodes’ super-capacitive capabilities. The impact of annealing temperature on the electrochemical characteristics of some materials at temperatures ranging from 100°… Show more

“…This is again adversely affects the transfer capabilities of both ions during the electrochemical CV process. However, at lower scan rate of 10 mV.s -1 , the maximum speci c capacitance of 464.45 F.g -1 is observed for sample S1 as compare to earlier reported papers [25][26].…”

Synthesis of MnO 2 electrode material by electro-deposition method for the enhanced capacitive properties

“…This is again adversely affects the transfer capabilities of both ions during the electrochemical CV process. However, at lower scan rate of 10 mV.s -1 , the maximum speci c capacitance of 464.45 F.g -1 is observed for sample S1 as compare to earlier reported papers [25][26].…”

Synthesis of MnO 2 electrode material by electro-deposition method for the enhanced capacitive properties