Effects of Cr doping on the structural, optical and electrical characterizations of spray-deposited ZnSnO3 thin films

In the current research, spray pyrolysis was effectively employed to create the ZnSnO 3 and Cr: ZnSnO 3 films at substrate temperature 320 °C. The X-ray diffraction spectra of the ZnSnO 3 and Cr: ZnSnO 3 thin films revealed a rhombohedral structure corresponding to the ZnSnO 3 phase. The structural analysis refers to increasing the Cr content from 0 to 7.5 wt% led to a reduction in the crystallite size of the investigated layers from 36.92 to 23.87 nm. The EDX measurements verified the existence of the Zn, Sn, and O in the ZnSnO 3 and Cr, Zn, Sn, and O in the Cr: ZnSnO 3 thin films. The ratios of these elements match the stoichiometry of ZnSnO 3 . Spectrophotometric measurements of the transmission and reflection of the neoteric Cr: ZnSnO 3 sheets were used for analyzing their optical characteristics. The optical transmissions of the ZnSnO 3 and Cr: ZnSnO 3 films were reduced from 94 to 81% by boosting the Cr content. Moreover, the studied films attained band gaps reduced from 3.71 to 3.29 eV, boosting the Cr content from 0 to 7.5 wt%. Also, the analysis of the refractive indices of the investigated films displays an improvement in these values from 2.43 to 3.75. The Urbach energy of these samples increased from 0.13 to 0.17 eV by enlarging the Cr content. The optoelectrical indices like electrical conductivity, real and imaginary sections of the dielectric indices, and optical conductivity are all boosted by boosting the Cr content. The impact of Cr content on the nonlinear optical parameters refers to an enhancement in the nonlinear optical parameter’s values.