Enhancement of energy storage in epitaxial PbZrO3 antiferroelectric films using strain engineering
Résumé
We demonstrate an approach to enhance the energy storage density W of antiferroelectric film through simple altering a crystallographic orientation of the substrate. We reveal that the antiferroelectric phase stability of PbZrO3 can be enhanced for the (110) or (111) SrTiO3 substrate orientation, thus suppresses the antiferroelectric-ferroelectric phase transition to higher electric field with ~120 kV/cm increment. In addition, the polarization values of these films are also favorably increased hence increases W by 5.3 J/cm3 at 700 kV/cm. The observed enhancement is found to originate from a high sensitivity of phase transition to mechanical confinements due to the volume expansion at the transition.
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