Journal
ADVANCED MATERIALS
Volume 33, Issue 51, Pages -Publisher
WILEY-V C H VERLAG GMBH
DOI: 10.1002/adma.202105071
Keywords
domain structure; ferroelectrics; phase-field modeling; piezoelectric effect; size effect
Categories
Funding
- National Science Foundation (NSF) [DMR-1744213]
- National Natural Science Foundation of China [51922083]
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The study reveals that the larger the domain size, the higher the piezoelectricity of ferroelectric crystals, contrary to previous beliefs. The dependence of piezoelectricity on domain size is determined by the propensity of polarization rotation inside the domains.
Piezoelectricity of ferroelectric crystals is widely utilized in electromechanical devices such as sensors and actuators. It is broadly believed that the smaller the ferroelectric domain size, the higher the piezoelectricity, arising from the commonly assumed larger contributions from the domain walls. Herein, the domain-size dependence of piezoelectric coefficients of prototypical ferroelectric crystals is theoretically studied based on thermodynamic analysis and phase-field simulations. It is revealed that the inverse domain-size effect, i.e., the larger the domain size, the higher the piezoelectricity, is entirely possible and can be just as common. The nature of the domain-size dependence of piezoelectricity is shown to be determined by the propensity of polarization rotation inside the domains instead of the domain wall contributions. A simple, unified, analytical model for predicting the domain-size dependence of piezoelectricity is established, which is valid regardless of the crystalline symmetry, the materials chemistry, and the domain structures of a ferroelectric crystal, and thus can serve as a guiding tool for optimizing piezoelectricity of ferroelectric materials beyond the nanodomain engineering. In addition, the theoretical approach can be extended to understand the microstructural size effect of multifunctional properties in ferroic and multiferroic materials.
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