Add to ORKGWe study the interplay between epitaxial strain, film thickness, and electric field in the creation, modification, and design of distinct ferroelastic structures in PbTiO thin films. Strain and thickness greatly affect the structures formed, providing a two-variable parameterization of the resulting self-assembly. Under applied electric fields, these strain-engineered ferroelastic structures are highly malleable, especially when a/c and a/a superdomains coexist. To reconfigure the ferroelastic structures and achieve self-assembled nanoscale-ordered morphologies, pure ferroelectric switching of individual c-domains within the a/c superdomains is essential. The stability, however, of the electrically written ferroelastic structures is in most...
In epitaxial ferroelectric thin films under tensile strain, a transition from 180 degrees domains to...
In epitaxial ferroelectric thin films under tensile strain, a transition from 180 degrees domains to...
In epitaxial ferroelectric thin films under tensile strain, a transition from 180 degrees domains to...
We study the interplay between epitaxial strain, film thickness, and electric field in the creation,...
Leveraging competition between energetically degenerate states to achieve large field-driven respons...
Ferroelastic switching in ferroelectric/multiferroic oxides plays a crucial role in determining thei...
We study the complex ferroelastic/ferroelectric domain structure in the prototypical ferroelectric P...
Ferroelastic switching in ferroelectric/multiferroic oxides plays a crucial role in determining thei...
Ferroelectric domain structures and their evolution in the epitaxial PbTiO3 thin films are greatly a...
Unique ferroelastic polytwin domains are formed in epitaxial ferroelectric thin films prepared on si...
Phase and domain structures in ferroelectric materials play a vital role in determining their dielec...
In epitaxial ferroelectric thin films under tensile strain, a transition from 180 degrees domains to...
Phase and domain structures in ferroelectric materials play a vital role in determining their dielec...
Epitaxial strain has been widely used to modify the crystal and domain structure, and ultimately the...
Ferroelectrics, with their spontaneous switchable electric polarization and strong coupling between ...
In epitaxial ferroelectric thin films under tensile strain, a transition from 180 degrees domains to...
In epitaxial ferroelectric thin films under tensile strain, a transition from 180 degrees domains to...
In epitaxial ferroelectric thin films under tensile strain, a transition from 180 degrees domains to...
We study the interplay between epitaxial strain, film thickness, and electric field in the creation,...
Leveraging competition between energetically degenerate states to achieve large field-driven respons...
Ferroelastic switching in ferroelectric/multiferroic oxides plays a crucial role in determining thei...
We study the complex ferroelastic/ferroelectric domain structure in the prototypical ferroelectric P...
Ferroelastic switching in ferroelectric/multiferroic oxides plays a crucial role in determining thei...
Ferroelectric domain structures and their evolution in the epitaxial PbTiO3 thin films are greatly a...
Unique ferroelastic polytwin domains are formed in epitaxial ferroelectric thin films prepared on si...
Phase and domain structures in ferroelectric materials play a vital role in determining their dielec...
In epitaxial ferroelectric thin films under tensile strain, a transition from 180 degrees domains to...
Phase and domain structures in ferroelectric materials play a vital role in determining their dielec...
Epitaxial strain has been widely used to modify the crystal and domain structure, and ultimately the...
Ferroelectrics, with their spontaneous switchable electric polarization and strong coupling between ...
In epitaxial ferroelectric thin films under tensile strain, a transition from 180 degrees domains to...
In epitaxial ferroelectric thin films under tensile strain, a transition from 180 degrees domains to...
In epitaxial ferroelectric thin films under tensile strain, a transition from 180 degrees domains to...