Add to ORKGThe ability of zero-stress simulations, using Gordon-Kim pair potentials, to describe the structures and transformations of known fluoride-based perovskites is demonstrated for the case of KCaF3. When K+ is replaced by Na+ a new ferroelectric crystal isomorphous with LiNbO3 is predicted. The equivalent relationships of the ferroelectric lithium niobate structure with the perovskite and antiperovskite structures are examined. A polarization of 21 jµC/cm2 at room temperature and a transition temperature of 550 K are predicted for NaCaF3. Surface effects are examined in simulations of a 1080-ion cluster
In the last fifteen years, multifunctional materials, and more specifically, multi- functional oxide...
ABO(3) perovskites have fascinated solid-state chemists and physicists for decades because they disp...
ABO(3) perovskites have fascinated solid-state chemists and physicists for decades because they disp...
The ability of zero-stress simulations, using Gordon-Kim pair potentials, to describe the structures...
The ability of zero-stress simulations, using Gordon-Kim pair potentials, to describe the structure...
The ability of zero-stress simulations, using Gordon-Kim pair potentials, to describe the structure...
We have made a systematic theoretical survey of the competition between ferroelastic and ferroelectr...
We used first-principles calculations to investigate the existence and origin of the ferroelectric i...
We have made a systematic theoretical survey of the competition between ferroelastic and ferroelectr...
We have made a systematic theoretical survey of the competition between ferroelastic and ferroelectr...
We have made a systematic theoretical survey of the competition between ferroelastic and ferroelectr...
Based on first-principles total energy calculations, we predict that NaCdF3 could be formed in a fer...
Based on first-principles total energy calculations, we predict that NaCdF3 could be formed in a fer...
Based on first-principles total energy calculations, we predict that NaCdF3 could be formed in a fer...
Based on first-principles total energy calculations, we predict that NaCdF3 could be formed in a fer...
In the last fifteen years, multifunctional materials, and more specifically, multi- functional oxide...
ABO(3) perovskites have fascinated solid-state chemists and physicists for decades because they disp...
ABO(3) perovskites have fascinated solid-state chemists and physicists for decades because they disp...
The ability of zero-stress simulations, using Gordon-Kim pair potentials, to describe the structures...
The ability of zero-stress simulations, using Gordon-Kim pair potentials, to describe the structure...
The ability of zero-stress simulations, using Gordon-Kim pair potentials, to describe the structure...
We have made a systematic theoretical survey of the competition between ferroelastic and ferroelectr...
We used first-principles calculations to investigate the existence and origin of the ferroelectric i...
We have made a systematic theoretical survey of the competition between ferroelastic and ferroelectr...
We have made a systematic theoretical survey of the competition between ferroelastic and ferroelectr...
We have made a systematic theoretical survey of the competition between ferroelastic and ferroelectr...
Based on first-principles total energy calculations, we predict that NaCdF3 could be formed in a fer...
Based on first-principles total energy calculations, we predict that NaCdF3 could be formed in a fer...
Based on first-principles total energy calculations, we predict that NaCdF3 could be formed in a fer...
Based on first-principles total energy calculations, we predict that NaCdF3 could be formed in a fer...
In the last fifteen years, multifunctional materials, and more specifically, multi- functional oxide...
ABO(3) perovskites have fascinated solid-state chemists and physicists for decades because they disp...
ABO(3) perovskites have fascinated solid-state chemists and physicists for decades because they disp...