Ceramic-based dielectric capacitors are one of the core components in high-/pulsed-power devices due to the giant power density and ultrafast discharge time. However, the current high recoverable energy density (Wrec) is widely obtained under a huge electric breakdown strength (Eb > 500 kV/cm). Herein, a relaxor ferroelectric ceramic based on Bi0.5Na0.5TiO3-NaNbO3-BaZrO3 is prepared and exhibits a high Wrec of 7.7 J/cm3 and a high η of 87.3% under a moderate electric field of 450 kV/cm, which is salient among BNT-based ceramics under the close applied electric field. This is attributed to the enhanced ergodic relaxor state and greatly decreased grain size, enabling a high polarization difference (ΔP) of 39.4 μC/cm2 and a large Eb of 464 kV/cm. Furthermore, the sample with optimal composition also possesses excellent reliability of frequency (1-100 Hz), fatigue (up to 106), and temperature (30-180 °C), and a high dynamic discharge energy density (Wd ∼ 4.8 J/cm3). This work provides some effective clues for the further exploitation of lead-free dielectric ceramics with high-capacitive energy storage.
Zhang et al. (Wed,) studied this question.
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