Enhancing low‐temperature energy harvesting by lead‐free ferroelectric Ba(Zr _0.1 Ti _0.9 )O ₃

The energy‐harvesting ability of the lead‐free ferroelectric Ba(Zr,Ti)O 3 was investigated and greatly enhanced using the Kim novel electrothermodynamic cycle for low‐temperature application. Ba(Zr,Ti)O 3 was synthesized with a Zr:Ti ratio of 10:90 (BZT10) by hot‐press sintering, which exhibited a mix relaxor‐ferroelectric behavior. For power generation using the Kim cycle with low and high temperatures of T L = 25°C, T H = 120°C, the most optimized temperature pattern occurred for a heating time of 12.5 s and a cooling time of 22.5 s. Under these conditions, the electric field increased during the novel isodisplacement process, and the displacement variation in the isoelectric step reached the highest value and maximized the BZT10 cycle loop area. Applying these conditions while lowering T L to 20°C, an energy density N D = 504 mJ/cm 3 was achieved. This value is the highest obtained energy density in a practical test for lead‐free ferroelectric bulk material in the BaTiO 3 family.