Influence of surfaces on the dielectric properties and leakage currents in paraelectric (Pb0.72La0.28)TiO3 thin films

Abstract

In the voltage range of 0–30 V, dielectric and leakage current density (J_L ) behavior were studied in paraelectric (Pb,La)TiO₃ or PLT thin films (0.1 −0.36 μm) with bulk resistivity of 5.6×10⁸ Ω-cm. With Pt electrodes, the properties were found to be contact dominated. With both top and bottom Pt electrodes, the interfacial capacitance (C_i and the built-in voltage (V_bi ) of the Schottky barrier were 380 pF and 1.3 V, respectively. A log-log plot of J_L vs V exhibit slope of ∼1 and 9, respectively, in the range of VVJ_L behavior nontrivial. Note that a slope of ∼1 may be misconstrued as ohmic behavior. In the 10<Vl_n J_L vs V^1/4 plot coupled with a Schottky barrier potential of 1.5 V, indicated that Schottky emission process was operational at the interface. Due to a similar voltage dependence, however, Poole-Frenkel emission cannot be ruled out.