Özet:

A stainless steel mesh current collector was coated by one-step electrochemical method for supercapacitor applications. As stainless steel mesh has a high surface area, accessibility of ions may be achieved easier than bulk stainless steel. Thin nickel films were synthesized in an aqueous solution electrolyte medium by a three-electrodes electrochemical configuration system under room temperature conditions by applying the potential of -1.5 V for 150, 300 and 600 seconds. The electrochemical capacitive characterization of the prepared nickel films was investigated in 1 M KOH electrolyte solution. The surface morphology of the prepared electrodes was examined. Microstructures of nickel coatings obtained on stainless steel wire surface were similar to tree peels. Therefore, electrodes with high surface area were obtained in the electrodeposition of nickel from pyrophosphate medium. The ion and electron transfer rates between the nickel-coated stainless steel mesh and the alkaline electrolyte were increased. Nickel coated steel mesh having a redox reaction at positive potential between +0.2 V and +0.6 V could be used as cathode electrodes. The nickel/stainless steel mesh electrode has a specific capacity of 1090 F g-1 at the scan rate of 5 mV s-1. As the electroactivity of stainless steel in KOH electrolyte was increased with nickel film, nickel-based coatings on stainless steel mesh surface in aqueous solution can be used as cathode electrodes in supercapacitor applications.

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