Abstract
A new series of co-sputtered Cu1-xTixO films and diodes have been scrutinized. The Cu1-xTixO films are grown onto quartz and Si substrates via a co-sputtering approach. The X-ray analysis revealed that the as-sputtered Cu1-xTixO films show ((1) over bar 11) preferential orientation. The grain size depends on the amount of Ti-ions doped into the CuO films. The surface morphology showed that the Ti-ions govern the surface roughness of the CuO films. The sputtered films showed high transmittance reaches 87% and low reflectance around 8%. The optical bandgap decreases from 1.23 eV to 1.03 eV as a result of the incorporation of Ti-ions in the Cu-sites. The ideality factor, barrier height, and the series resistance of the constructed Ag/Cu1-xTixO/n-Si diodes are determined using thermionic emission and Norde models. The optoelectronic properties of Ag/Cu0.99Ti0.01O/n-Si photodiode were emphasized. This photodiode showed high photosensitivity with fast photoresponse and high reproducibility and stability.