This study used a spray pyrolysis approach to create thin films from SnO₂ doped with 2% Co on a heated glass substrate at 400°C and investigated how the structural and optical characteristics are affected by non-thermal plasma. X-ray diffraction analysis was initially employed to look into the structural characteristics, and the results indicate that the SnO₂ and SnO₂:Co thin film are polycrystalline and have tetragonal structure, peak formation has occurred in (110), (101), and (211), which correlate to the subsequent diffraction angles, respectively (26.55⁰), (33.90⁰), and (51.55⁰). A peak associated with Co was also observed at (311), which is equivalent to the (36.78⁰) diffraction angle. According to AFM analysis, the grain size decreases from 64.01 nm to 59.10 nm after doping. Roughness and root mean square also appears to increase after doping, according to the UV-VIS spectrometer analysis, thetransmittance increases with doping and decreases with non-thermal plasma exposure, the energy gap value increases during Non-thermal plasma exposure and its decrease after doping. Additionally, the absorbance, absorbance coefficient, refractive index and extinction coefficient rise following Cold plasma exposure.