Junxiang Yao scite author profile

Ferroelectrics are usually inflexible oxides that undergo brittle deformation. We synthesized freestanding single-crystalline ferroelectric barium titanate (BaTiO3) membranes with a damage-free lifting-off process. Our BaTiO3 membranes can undergo a ~180° folding during an in situ bending test, demonstrating a super-elasticity and ultraflexibility. We found that the origin of the super-elasticity was from the dynamic evolution of ferroelectric nanodomains. High stresses modulate the energy landscape markedly and allow the dipoles to rotate continuously between the a and c nanodomains. A continuous transition zone is formed to accommodate the variant strain and avoid high mismatch stress that usually causes fracture. The phenomenon should be possible in other ferroelectrics systems through domain engineering. The ultraflexible epitaxial ferroelectric membranes could enable many applications such as flexible sensors, memories, and electronic skins.

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High-density array of ferroelectric nanodots with robust and reversibly switchable topological domain states

Wang

Tian

et al. 2017

Sci. Adv.

151

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Magnetoelectric Coupling in Well-Ordered Epitaxial BiFeO₃/CoFe₂O₄/SrRuO₃ Heterostructured Nanodot Array

et al. 2015

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Multiferroic magnetoelectric (ME) composites exhibit sizable ME coupling at room temperature, promising applications in a wide range of novel devices. For high density integrated devices, it is indispensable to achieve a well-ordered nanostructured array with reasonable ME coupling. For this purpose, we explored the well-ordered array of isolated epitaxial BiFeO3/CoFe2O4/SrRuO3 heterostructured nanodots fabricated by nanoporous anodic alumina (AAO) template method. The arrayed heterostructured nanodots demonstrate well-established epitaxial structures and coexistence of piezoelectric and ferromagnetic properties, as revealed by transmission electron microscopy (TEM) and peizoeresponse/magnetic force microscopy (PFM/MFM). It was found that the heterostructured nanodots yield apparent ME coupling, likely due to the effective transfer of interface couplings along with the substantial release of substrate clamping. A noticeable change in piezoelectric response of the nanodots can be triggered by magnetic field, indicating a substantial enhancement of ME coupling. Moreover, an electric field induced magnetization switching in these nanodots can be observed, showing a large reverse ME effect. These results offer good opportunities of the nanodots for applications in high-density ME devices, e.g., high density recording (>100 Gbit/in.(2)) or logic devices.

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Resistive switching induced by charge trapping/detrapping: a unified mechanism for colossal electroresistance in certain Nb:SrTiO₃-based heterojunctions

Fan

Yang

et al. 2017

J. Mater. Chem. C

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Junxiang Yao

Super-elastic ferroelectric single-crystal membrane with continuous electric dipole rotation

High-density array of ferroelectric nanodots with robust and reversibly switchable topological domain states

Magnetoelectric Coupling in Well-Ordered Epitaxial BiFeO₃/CoFe₂O₄/SrRuO₃ Heterostructured Nanodot Array

Resistive switching induced by charge trapping/detrapping: a unified mechanism for colossal electroresistance in certain Nb:SrTiO₃-based heterojunctions

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Junxiang Yao

Super-elastic ferroelectric single-crystal membrane with continuous electric dipole rotation

High-density array of ferroelectric nanodots with robust and reversibly switchable topological domain states

Magnetoelectric Coupling in Well-Ordered Epitaxial BiFeO3/CoFe2O4/SrRuO3 Heterostructured Nanodot Array

Resistive switching induced by charge trapping/detrapping: a unified mechanism for colossal electroresistance in certain Nb:SrTiO3-based heterojunctions

Contact Info

Product

Resources

About

Magnetoelectric Coupling in Well-Ordered Epitaxial BiFeO₃/CoFe₂O₄/SrRuO₃ Heterostructured Nanodot Array

Resistive switching induced by charge trapping/detrapping: a unified mechanism for colossal electroresistance in certain Nb:SrTiO₃-based heterojunctions