Add to ORKGWe report laser-based direct measurements of the pyroelectric and electrocaloric effects of PbZr1-xTixO3 epitaxial layers as a function of temperature and electric field. By evaluating the differences between the total pyroelectric and electrocaloric coefficients, we determine the secondary contribution to the electrocaloric effect that is created by a combination of piezoelectric and elastocaloric effects. The secondary contribution to the electrocaloric coefficient has the opposite sign as the primary effect and therefore reduces the overall entropy change of PbZr1-xTixO3 in an electric field. The absolute magnitude of the secondary effect is comparable to the primary effect at elevated temperatures of ≈200°C
The occurrence of the inverse (or negative) electrocaloric effect, where the isothermal application ...
The electrocaloric effect of ferroelectrics is promising for new solid-state refrigeration. However,...
There exist multiple driving forces in solid–state materials that can be utilized for entropy change...
The pyroelectric and electrocaloric effect play an important role in many applications such as energ...
The electrocaloric effect in ferroics is considered a powerful solid-state cooling technology. Its p...
Temperature- and electric-field-induced structural transitions in a polydomain ferroelectric can hav...
We describe measurements of the pyroelectric coefficient of epitaxial layers of Ba0.6Sr0.4TiO3 (BST)...
Solid state cooling technologies based on electrocaloric, magnetocaloric and mechanocaloric effects ...
An applied electric field can reversibly change the temperature of an electrocaloric material\ud und...
Advances in materials displaying strong electrothermal phenomena can enable next-generation devices ...
An understanding of polarization-heat interactions in pyroelectric and electrocaloric thin-film mate...
Since the discovery of the giant electrocaloric effect in PbZr0.95Ti0.05O3, the electrocaloric effec...
International audienceWe have investigated the entropy change in the ferroelectric phase of poly(vin...
The occurrence of the inverse (or negative) electrocaloric effect, where the isothermal application ...
A thermodynamic model is developed to investigate the electrocaloric effect (ECE) of the PbZr0.4Ti0....
The occurrence of the inverse (or negative) electrocaloric effect, where the isothermal application ...
The electrocaloric effect of ferroelectrics is promising for new solid-state refrigeration. However,...
There exist multiple driving forces in solid–state materials that can be utilized for entropy change...
The pyroelectric and electrocaloric effect play an important role in many applications such as energ...
The electrocaloric effect in ferroics is considered a powerful solid-state cooling technology. Its p...
Temperature- and electric-field-induced structural transitions in a polydomain ferroelectric can hav...
We describe measurements of the pyroelectric coefficient of epitaxial layers of Ba0.6Sr0.4TiO3 (BST)...
Solid state cooling technologies based on electrocaloric, magnetocaloric and mechanocaloric effects ...
An applied electric field can reversibly change the temperature of an electrocaloric material\ud und...
Advances in materials displaying strong electrothermal phenomena can enable next-generation devices ...
An understanding of polarization-heat interactions in pyroelectric and electrocaloric thin-film mate...
Since the discovery of the giant electrocaloric effect in PbZr0.95Ti0.05O3, the electrocaloric effec...
International audienceWe have investigated the entropy change in the ferroelectric phase of poly(vin...
The occurrence of the inverse (or negative) electrocaloric effect, where the isothermal application ...
A thermodynamic model is developed to investigate the electrocaloric effect (ECE) of the PbZr0.4Ti0....
The occurrence of the inverse (or negative) electrocaloric effect, where the isothermal application ...
The electrocaloric effect of ferroelectrics is promising for new solid-state refrigeration. However,...
There exist multiple driving forces in solid–state materials that can be utilized for entropy change...