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Giant Superelastic Piezoelectricity in Flexible Ferroelectric BaTiO<sub>3</sub> Membranes

Hemaprabha Elangovan, Maya Barzilay, Sahar Seremi, Noy Cohen, Yizhe Jiang, Lane W. Martin, Yachin Ivry

2020ACS Nano77 citationsDOI

Abstract

Mechanical displacement in commonly used piezoelectric materials is typically restricted to linear or biaxial in nature and to a few percent of the material dimensions. Here, we show that free-standing BaTiO3 membranes exhibit nonconventional electromechanical coupling. Under an external electric field, these superelastic membranes undergo controllable and reversible “sushi-rolling-like” 180° folding–unfolding cycles. This crease-free folding is mediated by charged ferroelectric domains, leading to giant >3.8 and 4.6 μm displacements for a 30 nm thick membrane at room temperature and 60 °C, respectively. Further increasing the electric field above the coercive value changes the fold curvature, hence augmenting the effective piezoresponse. Finally, it is found that the membranes fold with increasing temperature followed by complete immobility of the membrane above the Curie temperature, allowing us to model the ferroelectric domain origin of the effect.

Topics & Concepts

Materials scienceFerroelectricityPiezoelectricityMembraneNanotechnologyComposite materialDielectricOptoelectronicsChemistryBiochemistryFerroelectric and Piezoelectric MaterialsAcoustic Wave Resonator TechnologiesDielectric materials and actuators
Giant Superelastic Piezoelectricity in Flexible Ferroelectric BaTiO<sub>3</sub> Membranes | Litcius