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

Ferroelectric domain walls enhance superconductivity in 2D materials Study reveals unique electron-phonon coupling mechanism ...

A new technical paper titled “Superconductivity from Domain Wall Fluctuations in Sliding Ferroelectrics” was published by ...

Scientists at Penn State have discovered a method to induce ferroelectric properties in non-ferroelectric materials by ...

Proximity ferroelectricity unlocks new materials for data storage and wireless communications in new Penn State research.

Study shows non-ferroelectric materials can gain ferroelectric properties through proximity effects, offering new avenues for ...

Developed by UCLA materials scientists, the prototype could lower ambient temperatures of its immediate surroundings by 16 ...

Two-dimensional (2D) van der Waals are made of atomically thin layers, held together by weak van der Waals forces. These ...

Scientists show non-ferroelectric materials can gain ferroelectric properties when stacked with ferroelectric materials - a phenomenon called proximity ferroelectricity.

UCLA materials scientists have developed a compact cooling technology that can pump away heat continuously using layers of ...

To describe how matter works at infinitesimal scales, researchers designate collective behaviors with single concepts, like ...

Thickness reduction in tellurene alters polaron dynamics, affecting electrical transport and optical properties vital for ...