Achieving Ultrahigh Electrocaloric Response in (Bi<sub>0.5</sub>Na<sub>0.5</sub>)TiO<sub>3</sub>-Based Ceramics through B-Site Defect Engineering
Weikang Lin, Guohui Li, Jin Qian, Guanglong Ge, Simin Wang, Jinfeng Lin, Jimin Lin, Boxiong Shen, Jiwei Zhai
Abstract
Lead-free electrocaloric (EC) ferroelectrics are considered ideal for the next generation of environmentally friendly solid-state refrigeration materials. However, their inferior performance compared to lead-based materials significantly restricts their potential application. According to phase-field simulations, it is predicted that the pinning effect of a moderate number of defects can effectively enhance the reversible polarization response associated with the entropy change. Herein, sodium–bismuth titanate (BNT) ceramics with high spontaneous polarization are selected to construct B-site defects by introducing Li + and Nb 5+ . Under an electric field of 6 kV mm –1, ultrahigh EC temperature changes of Δ T pos = 1.77 and Δ T neg = 1.49 K are achieved at 65 °C by direct measurement (Δ T neg > 1 K over 55–120 °C). Furthermore, Δ T neg remains above 0.70 K in the temperature range from 25 to 130 °C, exhibiting immense potential for practical applications. This study offers a promising direction for optimizing the EC response in defect systems.