Advancing energy storage capabilities in 0.7BNST(1-x)-0.3BLMNx lead-free dielectric ceramic materials.

Lead-free ferroelectric ceramics with a composition of 0.7(Bi 0.5 Na 0.5) 0.7 Sr 0.3 Ti (1- x) O 3 -0.3Ba 0.94 La 0.04 (Mg 1/3 Nb 2/3) x O 3 (abbreviated as 0.7BNST (1- x) -0.3BL(MN) x , 0 ≤ x ≤ 0.12) were prepared using solid-phase sintering method, involving co-substituting at A and B sites. High recoverable energy density (W rec) of 3.54 J/cm3 and energy efficiency (η) 85.49% are achieved at an electric field of 270 kV/cm. Furthermore, these ceramics exhibited excellent temperature and cycle stability at 120 kV/cm (within 25 °C–150 °C, W rec fluctuation range <14 %; under 1∼106 cycles, the W rec fluctuation range <5 %). In terms of dielectric performance, they exhibited a high dielectric constant (ε r ∼4540), an extremely low dielectric loss tanδ of <0.04 (30 °C–300 °C), and good temperature stability with Δ ε / ε 150 °C ≤ ±15 % (−19.5 °C–233.4 °C). During the charging and discharging process, these ceramics demonstrated a high energy density (W d) of 1.2 J/cm3, a power density (P D) of 61.7 MW/cm3, and an extremely short discharge time (t 0.9) of approximately ∼0.11 μs. This study has improved the dielectric energy storage performance of BNT-based lead-free piezoelectric ceramics, making them suitable for use in pulse power devices. [ABSTRACT FROM AUTHOR]