Growth of ultra thin vanadium dioxide thin films using magnetron sputtering

Abstract

In this work, the results of fabricating ultra thin VO2 films on the technologically relevant amorphous SiO2 surface using reactive DC magnetron sputtering are presented. Results indicate that a post deposition anneal in low partial pressures of oxygen is an effective way at stabilizing the VO2(M1) phase on the SiO2 surface. VO2 films with a thickness of 42nm show a continuous microstructure, and undergo a resistivity change of more than a factor of 200 as the temperature of the film increases above 72oC. The film shows hysteresis in the metal-insulator transition temperature upon heating and cooling with a width of approximately 8oC. The resistivity of the low temperature semiconducting phase is found to be thermally activated with an activation energy 0.160.03 ev. Stress measurements using X-ray diffraction indicate that the ultra thin VO2 film has a large tensile stress of 2.00.2 GPa. This value agrees well with the calculated thermal stress due to differential thermal expansion between the VO2 thin film and silicon substrate. The stress leads to a shift of the metal-insulator transition temperature by approximately 4oC.