Multiferroic materials, in which electric and magnetic properties are combined in promising ways, will be the heart of new ...

While most multiferroics can't operate above room temperature, a team of researchers at Tohoku University demonstrated that ...

Tb2(MoO4)3 functions as a multiferroic at 160 °C, addressing key limitations and opening new avenues for high-temperature ...

Scientists have developed a hybrid material that switches between conducting and insulating states while maintaining ...

While most multiferroics are limited such that the hottest they can operate at is room temperature, a team of researchers at Tohoku University ...

Tohoku University researchers are breaking limits by increasing the temperature multiferroics can operate at, from room temperature up to a ...

While most multiferroics are limited such that the hottest they can operate at is room temperature, a team of researchers at Tohoku University ...

Multiferroic materials, which have the special ability to connect magnetism and electricity, are now one step closer to ...

Scientists discover that self-assembling vitamin crystals convert physical force into electricity, creating safe, ...

This paper compares and analyzes the polarization information extraction capability of time-domain polarization analysis, frequency-domain polarization analysis, and time-frequency (TF)-domain ...

Electrons have a hidden feature — spin — that could revolutionize technology. Magnets can control it, but researchers are now ...

A new poll from EV advocacy group the American EV Jobs Alliance has mixed news for Tesla leader and Donald Trump confidant ...