Journal of College of Education

The article describes a method that was used to prepare thin films of Undoped SnO₂ and SnO₂:Ni thin films via a simple, costless, and suitable technique to prepare thin films with acceptable homogeneity using chemical spray pyrolysis (CSP) method. XRD analysis assures that Undoped SnO₂ and SnO₂:Ni films are polycrystalline with well recognized peak at (110), Nickel content were changed from (0, 2, 4)% cause increasing the crystallite size from 12.76 nm to the Undoped SnO₂ and 14.08 nm for the SnO₂: 4%Ni, while the dislocation density and strain are decreasing from (6.14–5.04) m, (2.71 – 2.46) nm respectively. Furthermore average diameter decreased from 75.09 nm to 60.78 nm with an increase of Nickel content. RMS value of 6.78 nm for Undoped SnO₂ thin films decreased to 3.16 nm by Ni content increase to 4%. The transmittance decreased slightly with increasing of Nickel content, while absorption coefficient is increased with the increasing of Nickel content in SnO₂ films, energy gap decreased from 3.68 eV for SnO₂ film to 3.58 eV for the doping SnO₂: 4% Ni film. refractive index and extinction coefficient are decreased with the increase Nickel content