Abstract
Vanadium oxide (VOx) thin films were fabricated on the sapphire substrates by sputtering deposition and subsequent rapid-thermal-annealing (RTA) process. The effect of O2 flow rate on the crystal structure, surface morphology and phase transition property of thin films was studied. The results indicated that VOx thin films were polycrystalline structures and consisted of irregular blocky-shaped grains. As the O2 flow rate increased from 3 to 4.5 slpm, the oxidation was enhanced and the grain size decreased gradually. In addition, when we increased O2 flow rate, phase transition amplitude increased from 5.4 to 117 and the phase transition temperature decreased from 50.45 °C to 45.37 °C. The hysteresis width almost increased as O2 flow rate increased. More interesting, we found that the value of $$d\lg {\text{R}}_{\square } /dT$$ became big at high temperature which could be attributed to the phase transition and the variation trend of difference was in line with the phase transition amplitude. So, it could be concluded that O2 flow rate in the RTA process played a significant role in the properties of VOx thin films.
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More From: Journal of Materials Science: Materials in Electronics
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