Manganese dioxide nanowires of tunable dimensions synthesized via a facile hydrothermal route

Abstract

Manganese dioxide (MnO nanowires of tunable dimensions were successfully synthesized via the facile water-bathing hydrothermal route. Homogeneous solution mixtures of KMnOand MnSOof varying compositions were being aged in a thermostated water bath under controlled conditions. The dimensional aspect ratios of MnOnanowires formed were readily modulated by varying synthesis parameters such as the initial concentration of chemical precursors, reaction temperature, and aging duration. At fixed initial precursor concentrations, the mean diameter of MnOnanowires decreased slightly from 57 nm to 53 nm with increased reaction temperature from 60°C to 90°C. The mean diameter of MnOnanowires decreased linearly within the range of 104 nm and 35 nm as the initial concentration of both precursors was increased in turn within the range of 10 mmol and 40 mmol at fixed aging temperature and duration. Upon aging for 2 to 24 hours at 80°C, the mean diameter and length of MnOnanowires were observed to vary within the range of 33-55 nm and 0.69-2.68 m, respectively, which corresponded to the dimensional aspect ratio range of 21 to 49. Henceforth, MnOnanowires of tunable dimensions could be synthesized through optimally controlled synthesis parameters.