Add to ORKGCopyright © 2020 The Authors, some rights reserved; Thickness effect and mechanical tuning behavior such as strain engineering in thin-film ferroelectrics have been extensively studied and widely used to tailor the ferroelectric properties. However, this is never the case in freestanding single crystals, and conclusions from thin films cannot be duplicated because of the differences in the nature and boundary conditions of the thin-film and freestanding single-crystal ferroelectrics. Here, using in situ biasing transmission electron microscopy, we studied the thickness-dependent domain switching behavior and predicted the trend of ferroelectricity in nanoscale materials induced by surface strain. We discovered that sample thickness plays a ...
Flexoelectric coefficient is a fourth-rank tensor arising from the coupling between strain gradient ...
Ferroelectric nanoplates are attractive for applications in nanoelectronic devices. Defect engineeri...
We show that after long times (24 h), individual circular domains in 50 nm thick [001] epitaxial fil...
Over the last decades, ferroelectric materials have become essential components in a range of applic...
Polar and electromechanical properties of ferroelectric thin films including polarization domain for...
Extremely regular self-organized patterns of 90A degrees ferroelastic domains have been reported in ...
Due to their spontaneous polarization, ferroelectric materials have a variety of applications in ele...
X-ray analysis of ferroelectric thin layers of Ba1/2Sr1/2TiO3 with different thicknesses reveals the...
Ferroelectric functional materials are of great interest in science and technology due to their elec...
Ferroelectric materials are characterized by a spontaneous polarization, which can be reoriented wit...
Increasing miniaturization in ferroelectrics allows creating complex domain structures with novel fu...
Thin lamellae were cut from bulk single crystal BaTiO3 using a focused ion beam microscope. They wer...
We report first-principle atomistic simulations of the effect of local strain gradients on the nanos...
Using a combination of numerical and analytical techniques, I present characterizations of ferroelec...
The screening efficiency of a metal−ferroelectric interface plays a critical role in determining the...
Flexoelectric coefficient is a fourth-rank tensor arising from the coupling between strain gradient ...
Ferroelectric nanoplates are attractive for applications in nanoelectronic devices. Defect engineeri...
We show that after long times (24 h), individual circular domains in 50 nm thick [001] epitaxial fil...
Over the last decades, ferroelectric materials have become essential components in a range of applic...
Polar and electromechanical properties of ferroelectric thin films including polarization domain for...
Extremely regular self-organized patterns of 90A degrees ferroelastic domains have been reported in ...
Due to their spontaneous polarization, ferroelectric materials have a variety of applications in ele...
X-ray analysis of ferroelectric thin layers of Ba1/2Sr1/2TiO3 with different thicknesses reveals the...
Ferroelectric functional materials are of great interest in science and technology due to their elec...
Ferroelectric materials are characterized by a spontaneous polarization, which can be reoriented wit...
Increasing miniaturization in ferroelectrics allows creating complex domain structures with novel fu...
Thin lamellae were cut from bulk single crystal BaTiO3 using a focused ion beam microscope. They wer...
We report first-principle atomistic simulations of the effect of local strain gradients on the nanos...
Using a combination of numerical and analytical techniques, I present characterizations of ferroelec...
The screening efficiency of a metal−ferroelectric interface plays a critical role in determining the...
Flexoelectric coefficient is a fourth-rank tensor arising from the coupling between strain gradient ...
Ferroelectric nanoplates are attractive for applications in nanoelectronic devices. Defect engineeri...
We show that after long times (24 h), individual circular domains in 50 nm thick [001] epitaxial fil...