Abstract
This work reports on structural, electrical, optical, and photosensing properties of La and Zn co-doped CdO thin films. The co-doped CdO thin films were prepared on glass substrates using the nebulizer spray method at 350 C. From the structural analysis, a decrease in the crystallite size from 20 to 16 nm is observed against the incorporation of La in CdO:Zn. Inclusion of La in CdO:Zn has also changed the surface morphology with a reduction in the roughness of the thin film samples. EDX analysis confirmed the incorporation of La with CdO: Zn in the prepared films. The bandgap value of the prepared samples increased with the increase in La concentration. A 1.5 wt % of La co-doped with CdO:Zn thin film sample produces low resistivity of 6.81 x 10(-4) omega cm and a better figure of merit of 8.4 x 10(-4) omega(-1). Finally, the fabricated photodetector with 1.5 wt% of La co-doped with CdO:Zn thin film shows a higher photocurrent and an ideality factor value of 3.4. The photosensing properties of the fabricated (p-Si/CdO-Zn-La (1.5%)) photodetector shows a higher responsivity (R) value of 1.18 AW(-1), specific detectivity (D*) value of 4.90 x 10(9) Jones, and external quantum efficiency (EQE) value of 274% with 3.0 mW/cm(2) light intensity. The switching characteristics of the photodetector show a faster rise time (2.9s) and fall time (3.6s) suggesting the fabricated device suitable for photosensing applications.