Characterization of Calcium-Modified Lead Titanate Thin Films Derived from a Diol-Based Sol–Gel Process

Polycrystalline thin films of Ca-modified lead titanate (PCT) were deposited on Pt/SiO₂/Si substrates using a diol-based sol–gel process. Calcium acetylacetonate hydrate was adopted as a starting material instead of the calcium acetate or calcium nitrate tetrahydrate used conventionally. By changing the Ca content (5–35 mol%) and heating temperature (500–800°C), the influences of various processing parameters on the characteristics of thin films were studied. With the increase of the Ca content, the relative dielectric constant (ε_r) of PCT thin film increased from 43 to 70 at the heating temperature of 700°C. It was found that the coercive field (E_c) and the remanent polarization (P_r) decreased, but the pyroelectric coefficient (γ) increased with an increase of Ca content. The results reveal that PCT thin film with a Ca content of 25 mol% exhibits the largest figures of merit for the voltage responsivity and the specific detectivity at a heating temperature of 700°C.