Piezoelectric and optical properties of ZnO thin films deposited using various O sub(2)/(Ar+O sub(2)) gas ratios

In this study, ZnO thin films were fabricated on a Pt(111)/TiO sub(x)/SiO sub(2)/Si substrate using the RF magnetron sputtering method. Then, the effect of the crystallization orientation and microstructure on the piezoelectric and optical properties of the ZnO thin film was investigated for various O sub(2)/(Ar+O sub(2)) gas ratios. When the O sub(2)/(Ar+O sub(2)) gas ratio was 50%, the intensity of the (002) peak corresponding to the preferred orientation of the ZnO thin film was a maximum and the minimum FWHM value of 0.56 was observed. The surface roughness of the ZnO thin film measured using AFM also had a minimum value of 16.43 C at an O sub(2)/(Ar+O sub(2)) gas ratio of 50%. The piezoelectric characteristics of the ZnO thin film were measured using the pneumatic loading method (PLM) and the corresponding constant had the largest value of 11.9 pC/N at an O sub(2)/(Ar+O sub(2)) gas ratio of 50%. The transmittance of the ZnO thin film obtained from the transmittance curve using a spectrophotometer was slightly greater than 80% in the human visible light region at an O sub(2)/(Ar+O sub(2)) gas ratio of 50%. By using the refractive index data obtained from the transmittance curve and the Sellmeir dispersion relation, we can also predict the refractive index at a wavelength of 400 nm. When the O sub(2)/(Ar+O sub(2)) gas ratio was 50%, the refractive index was 2.043 and, at other gas ratios, the corresponding refractive indices were 2.00462.006. The band gap energies of the ZnO thin film were 3.2763.33 eV depending on the O sub(2)/(Ar+O sub(2)) gas ratio and were little affected by the variation of the oxygen inflow volume.