Enhanced energy storage properties and stability in (Pb0.895La0.07)(ZrxTi1-x)O3 antiferroelectric ceramics.

Recently, the (Pb,La)(Zr,Ti)O 3 antiferroelectric materials with slim-and-slanted double hysteresis loops have been widely drawn in the application of advanced pulsed power capacitors due to its low strain characteristic. In this work, the energy storage properties of (Pb 0.895 La 0.07)(Zr x Ti 1- x)O 3 ceramics with different Zr contents are researched thoroughly because the substitution of Ti4+ by Zr4+ can reduce the tolerance factor t , enhancing the antiferroelectricity. The polarization-electric field hysteresis loops of the PLZT ceramics become slimmer with increasing Zr content. The highest recoverable energy storage density (W re) of 3.38 J/cm3 and ultrahigh energy efficiency (η) of 86.5% are achieved in (Pb 0.895 La 0.07)(Zr 0.9 Ti 0.1)O 3 ceramic. The (Pb 0.895 La 0.07)(Zr 0.9 Ti 0.1)O 3 ceramic also hold fairly thermal stability (relative variation of W re is less than 28% over 30 °C-120 °C), excellent frequency stability (10–1000 Hz) and good fatigue endurance. These results demonstrate that the (Pb 0.895 La 0.07)(Zr 0.9 Ti 0.1)O 3 ceramic can be a desirable material for dielectric energy storage capacitors, especially for pulse power technology. [ABSTRACT FROM AUTHOR]