Transparent Ga-doped tin oxide (GTO) thin films were fabricated on quartz glasses from (SnO2 + Ga2O3) mixture ceramic target by direct current (DC) magnetron sputtering in Ar gas at the pressure of 4.10-3torr. X ray diffraction (XRD), Hall - effect and UV-vis spectra measurements were performed to characterize the deposited films. Films were deposited directly with different temperatures in order to investigate the influence of temperature on their electrical and optical propertises. After that GTO films were deposited at 400 oC and then were annealed in Ar gas at different temperature in order to eliminate acceptor and donor compensation. Deposited films showed p-type electrical property, polycrystalline tetragonal rutile structure and their average transmittance above 80 % in visible light range at the optimum annealing temperature of 550 oC. In addition, p-type conductivity was also confirm by the non-linear characteristics of a p-type GTO/n Si. The best electrical properties of film were obtained on 15 % wt Ga2O3-doped SnO2 target with its resistivity, hole concentration and Hall mobility were 0,63 .cm, 3,3.1018 cm-3 and 3,01 cm2V-1s-1, respectively.
N-doped SnO2 films with varying thickness (320, 420, 520, 620, and 720 nm) were deposited at 300oC in mixed – gas sputtering Ar/N (1:1) using DC magnetron sputtering. Influence of thickness on structure, optical constants (refractive index or extinction coefficient), and electrical properties were investigated by methods such as X-ray diffraction, Uv-Vis spectra, and Hall measurement. The results show that crystalline quality and optical constants improve with increasing thickness. Specifically, NTO – 620 film has the best crystal structure and maximum values such as crystal size, refractive index, and carrier mobility, as well as the lowest extinction coefficient. Also, NTO films have a cubic structure with (111) peak as the preferred peak. Besides, the hole mobility increases with the increase of the thickness and reaches the maximum value of 14.95 cm2V-1s-1 for NTO – 620 films. The electrical properties of p-type NTO films were verified by X-ray electron spectroscopy (XPS) and I-V characteristic of p – NTO/n – Si heterojunction under illumination. P-type NTO – 620 films were fabricated on n-type Si substrate had a light-to-dark current ratio of 58 at - 6V, these results showed that p-type NTO films might have a promising future in optical sensors applications.
Sb doped tin oxide films (ATO) were fabricated on Quart glasses from (SnO2 + Sb2O3) mixture ceramic target by direct current (DC) magnetron sputtering in Ar ambient gas at working pressure of 2.10-3 torr. X ray diffraction (XRD), Hall - effect measurements and UV-vis spectra were performed to characterize the deposited films. The substrate temperature of films was investigated for two ways. Films were annealed in Ar ambient gas after deposited at room temperature in one way. They were deposited directly with different temperatures in the other. It is found that the fabricated of ATO films in the first way was easier than the other. Deposited films showed p type electrical property, polycrystalline tetragonal rutile structure and their average transmittance was above 80 % in visible light range at the optimum annealing temperature of 500oC. The best electrical properties of film were obtained on 10 %wt Sb2O3 doped SnO2 target with its resistivity, hole concentration and Hall mobility are 0.55 Ω.cm, 1.2.1019 cm-3 and 0.54 cm2V-1s-1, respectively.
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