Scientists at UCLA have developed an innovative cooling device, composed of multiple thin layers of ferroelectric polymer ...

Ferroelectric thin films are materials that exhibit spontaneous electric polarization, which can be reversed by the application of an external electric field. These materials have garnered ...

Ferroelectric thin films are materials that exhibit spontaneous electric polarization, which can be reversed by the application of an external electric field. These materials have garnered ...

Lithium niobate’s exceptional properties and ferroelectric domain engineering enable cutting-edge innovations in photonics ...

Now, a new study shows that ferroelectricity can be imparted on a non-ferroelectric material if its stacked together—a ...

There’s still work to be done as the researchers move to the next step in the process. Scientists make breakthrough discovery ...

UCLA materials scientists have developed a compact cooling device using electrocaloric thin films that flex like an accordion to pump heat away. The prototype cools ambient surroundings by 16°F and ...

A new publication from Opto-Electronic Advances; DOI 10.29026/oea.2025.240139, discusses ferroelectric domain engineering of Lithium Niobate.

A device made of polymer thin films shows promise for use in wearable and portable applications. UCLA materials scientists ...