Abstract

A giant electrocaloric effect is reported in (Pb_0.97La_0.02)(Zr_0.95Ti_0.05)O₃ anti-ferroelectric ceramics. These samples were fabricated by a solid-state mixed oxide technique. Dielectric analyses were employed to investigate the anti-ferroelectric (AFE) and ferroelectric (FE) phase transitions of the sample. During the heating process, the phase transition from the orthorhombic anti-ferroelectric phase (AFE_O) to the tetragonal anti-ferroelectric phase (AFE_T) occurs at 155 °C, and the phase transition from AFE_T to PE occurs at 225 °C. Using the Maxwell relationship, the entropy change Δ<i>S</i> and adiabatic temperature change Δ<i>T</i> were obtained at different electric fields ranging from 40 to 65 kV/cm. The maximum adiabatic temperature change (Δ<i>T</i> _max = -7.47 K) was obtained at 50 kV/cm, which was attributed to the field-induced phase transformation between the anti-ferroelectric and ferroelectric phases. These results showed that PLZT2/95/5 ceramics possess a large negative electrocaloric effect value, which could be applied in achieving cooling power as refrigerants.