Add to ORKGFerroelastic switching in ferroelectric/multiferroic oxides plays a crucial role in determining their dielectric, piezoelectric, and magnetoelectric properties. In thin films of these materials, however, substrate clamping is generally thought to limit the electric-field- or mechanical-force-driven responses to the local scale. Here, we report mechanical-force-induced large-area, non-local, collective ferroelastic domain switching in PbTiO3 epitaxial thin films by tuning the misfit-strain to be near a phase boundary wherein c/a and a1/a2 nanodomains coexist. Phenomenological models suggest that the collective, c-a-c-a ferroelastic switching arises from the small potential barrier between the degenerate domain structures, and the large aniso...
We study the complex ferroelastic/ferroelectric domain structure in the prototypical ferroelectric P...
Giant electromechanical response viaferroelastic domain switching is achieved in epitaxial (001) fer...
The unique response of ferroic materials to external excitations facilitates them for diverse techno...
Ferroelastic switching in ferroelectric/multiferroic oxides plays a crucial role in determining thei...
Leveraging competition between energetically degenerate states to achieve large field-driven respons...
We study the interplay between epitaxial strain, film thickness, and electric field in the creation,...
Ferroelectric oxide thin films are currently used in ultra high density non-volatile memories (FeRAM...
The response to a local, tip-induced electric field of ferroelastic domains in thin polycrystalline ...
Multiferroics have received intense attention due to their great application potential in multi-stat...
Ferroelectric thin films have been intensively studied at the nanometre scale due to the application...
Domains and domain walls are critical in determining the response of ferroelectrics, and the ability...
Unique ferroelastic polytwin domains are formed in epitaxial ferroelectric thin films prepared on si...
The unique response of ferroic materials to external excitations facilitates them for diverse techno...
We report a voltage controlled reversible creation and annihilation of <i>a</i>-axis oriented ∼10 nm...
The unique response of ferroic materials to external excitations facilitates them for diverse techno...
We study the complex ferroelastic/ferroelectric domain structure in the prototypical ferroelectric P...
Giant electromechanical response viaferroelastic domain switching is achieved in epitaxial (001) fer...
The unique response of ferroic materials to external excitations facilitates them for diverse techno...
Ferroelastic switching in ferroelectric/multiferroic oxides plays a crucial role in determining thei...
Leveraging competition between energetically degenerate states to achieve large field-driven respons...
We study the interplay between epitaxial strain, film thickness, and electric field in the creation,...
Ferroelectric oxide thin films are currently used in ultra high density non-volatile memories (FeRAM...
The response to a local, tip-induced electric field of ferroelastic domains in thin polycrystalline ...
Multiferroics have received intense attention due to their great application potential in multi-stat...
Ferroelectric thin films have been intensively studied at the nanometre scale due to the application...
Domains and domain walls are critical in determining the response of ferroelectrics, and the ability...
Unique ferroelastic polytwin domains are formed in epitaxial ferroelectric thin films prepared on si...
The unique response of ferroic materials to external excitations facilitates them for diverse techno...
We report a voltage controlled reversible creation and annihilation of <i>a</i>-axis oriented ∼10 nm...
The unique response of ferroic materials to external excitations facilitates them for diverse techno...
We study the complex ferroelastic/ferroelectric domain structure in the prototypical ferroelectric P...
Giant electromechanical response viaferroelastic domain switching is achieved in epitaxial (001) fer...
The unique response of ferroic materials to external excitations facilitates them for diverse techno...