Indium tin oxide (ITO) thin films have been deposited on glass substrate by DC magnetron sputtering in the presence and absence of oxygen gas flux. Subsequently, some of the samples have been annealed in vacuum or air oven at [Formula: see text]C for 20[Formula: see text]min. The optical, surface morphology and electrical characteristics have been examined by spectrophotometry, atomic force microscope, field emission scanning electron microscopy, four-point probe and Hall effect measurements as a function of argon gas flux, film thickness, deposition rate and substrate temperature. Experimental results indicate that the surface roughness increases by decreasing the argon gas flow rate and deposition rate. The result revealed that the lowest surface roughness of 1.07[Formula: see text]nm is achieved at zero oxygen gas flux, argon gas flow 20[Formula: see text]sccm and deposition rate [Formula: see text] Å/s. We have found that the maximum value of merit figure is related to the argon gas flow rate 30[Formula: see text]sccm. In order to obtain a very smooth surface, finally, the ITO thin films have been processed with alumina polishing solution by ultrasonic method. Our experimental results indicate that surface roughness decreases and merit figure increases after polishing process.
A Study on the Electrical Properties of ITO Thin Films with Various Oxygen Gas Flow Rate
