Synthesis of metal nitride and metal oxide nanoparticles by atmospheric-pressure spark ablation
Klito C. Petallidou (The Cyprus Institute)
Dimitris Gounaris (The Cyprus Institute)
Pau Ternero (Lund University)
Maria E. Messing (Chalmers University of Technology, Lund University)
Andreas Schmidt-Ott (VSParticle, The Cyprus Institute, TU Delft - ChemE/Materials for Energy Conversion and Storage)
George Biskos (The Cyprus Institute, TU Delft - Atmospheric Remote Sensing)
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Abstract
Metal nitride and metal oxide nanoparticles (NPs) provide key material components for a number of applications due to their unique properties. Here we demonstrate that spark ablation of metallic electrodes, quenched with a pure N2 flow at atmospheric pressure, can be used as a reactive generator to synthesize metal nitride, metal oxide or pure metallic NPs depending on the material. The composition of the synthesized NPs was determined through their crystal structure using X-ray diffraction and transmission electron microscopy (TEM). Our results show that the composition of the resulting NPs strongly depends on the electrode material: Ti and Al form mixtures of metal nitride and oxide NPs, whereas Mg and Pd produce respectively only oxide and pure metallic NPs. Repeated XRD measurements of the samples after exposing them to ambient air over periods of several months showed that the stability of TiN was higher compared to that of the AIN NPs, with the first being converted to TiNyOx and the latter to γ-Al2O3 after 9 months.
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