Effect of Sputtering Power on the Optical and Electrical Properties of ITO Films on a Flexible Fluorphlogopite Substrate

Abstract

AbstractIn this study, magnetron sputtering is implemented to adjust the sputtering power from 156 to 306 W at room temperature, and thin film samples of indium tin oxide (ITO) on a flexible fluorphlogopite substrate are taken. With the increase in power, the resistivity of the film first decreases and then increases. The resistivity is at least 1.51 × 10–3 Ω cm at 276 W, and the highest resistivity is 2.93 × 10–2 Ω cm at 156 W. The average light transmittance of the film (400–800 nm) decreases with the increase in power within the range of 156–276 W, The highest average transmittance is 92.6% at 156 W. The quality factor of the film first rises and then decreases as the power increases, it is as high as 4.47 × 10–3 Ω–1sq at 276 W. All the AFMs show that the roughness of the sample does not significantly change with power. The SEM picture shows that as the power increases from 156 to 276 W, the grain size increases slightly. All samples are bent 1200 times around a steel cylinder, and the sheet resistance does not change more than 5%.