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Abstract In this study, Mg-doped zinc oxide (MZO) thin films were deposited through radio frequency (RF) sputtering for different substrate temperatures ranging from room temperature (25 °C) to 350 °C. XRD analysis depicted that the higher substrate temperatures lead to increased crystallite size. From the UV–Vis spectroscopy, transmittance (T) was found approximately 95% and the optical band energy gap (E g ) was determined around 3.70 eV. Hall effect measurement system measured the carrier concentration and resistivity of all films in the order of 10 14 cm −3 and 10 3 Ω-cm, respectively. Since the structural and optoelectrical properties of the MZO films were not significantly affected by the substrate temperatures, Aluminium (Al) was co-doped in the MZO film to improve structural and optoelectrical properties. As a result, the carrier concentration of Al doped MZO (AMZO) films was increased up to ~ 10 20 cm −3 from ~ 10 14 cm 3 (MZO), and the resistivity was decreased up to ~ 10 –1 Ω-cm from 10 3 Ω-cm (MZO) representing the significant changes in electrical properties without affecting the transmittance. This study opens a pathway for improving the MZO buffer layer that can enhance the cell performance of CdTe solar cells. Graphical abstract
Rahman et al. (Mon,) studied this question.