Effects of Ultrasound Irradiation on the Synthesis of Metal Oxide Nanostructures

Abstract

High intensity ultrasound can be used for the production of novel nanomaterials, including metal oxides. According to previous works in this field, the most notable effects are consequence of acoustic cavitation. In this context, we have studied the preparation of different materials in the presence of ultrasound, including N-doped TiO₂ nanopowder, NiTiO₃ nanorods and MnO_x thin films. Ultrasound did not show a significant effect in all the cases. Exclusively for NiTiO₃ nanorods a reduction of the final particle size occurs upon ultrasonic irradiation. From these results, it can be concluded that the ultrasound irradiation does not always play a key role during the synthesis of metal oxides. The effects seem to be particularly relevant in those cases where mass transport is highly hindered and in those procedures that require the rupture of nanoparticle aggregates to obtain a homogenous dispersion.