Surfactant-assisted synthesis of belt- and urchin-shaped copper oxide/ hydroxide nanostructures with supercapacitor performance

Abstract

Nanoscale structures have attracted considerable interest owing to their high surface-to-volume ratios and unique chemical and physical properties. Various methods have been developed to synthesize two-dimensional and nanoscale structures, with surfactant-assisted approaches being particularly effective for forming nanoscale structures at water interfaces. In this study, a surfactant-assisted method is developed for synthesizing CuxO/Cu (OH)2 nanostructures with belt and urchin morphologies. The two distinct nanostructures are characterized using atomic force microscopy, and the mechanisms governing their formation are elucidated. From an electrochemical perspective, these structures exhibit enhanced supercapacitor performance because of the improved contact with electrolytes. Further, supercapacitor performance tests highlighted the potential of specimens for various electronic applications. The findings of this study demonstrate the potential applicability of these nanostructures in electrochemical catalyst, batteries, and supercapacitors.