Abstract
Size controllable α-MnO2 nanowires were synthesized from KMnO4 and ethanol via a low-temperature hydrothermal route assisted with subsequently heat treatment. No acid or alkali was added. XRD and SEM results clarified α-MnO2 nanoparticles (5–30nm) began to form at room temperature, and then grew up to nanowires (~12nm in diameter) when temperature increasing up to 120–160°C for an appropriate reaction time. Otherwise, octahedron-like Mn3O4 began to form at 120°C more than 4h or at 160°C more than 2h. Hydrothermal-synthesized α-MnO2 show well thermal-stability even it was heated at 900°C. And various size α-MnO2 nanowires were controllable prepared by adjusting heat treatment temperature of hydrothermal-synthesized α-MnO2 at range from 150°C to 750°C for 3h, which show the strongest diffraction peak (211) plane. The capacity of hydrothermal-synthesized α-MnO2 at 120°C for 2h was about 125F/g, which exhibited a promising electrochemical property.
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