Most materials we use in everyday life expand slightly when heated and return to their original size when cooled. In addition ...

Conventional electronics process information leveraging the electrical charge of electrons. Over the past few decades, some ...

Schematic illustration of designing two-dimensional room-temperature multiferroic materials through d-p spin coupling and symmetry-breaking hexagonal heterocycles. Recently, a research group led by ...

While most multiferroics are limited such that the hottest they can operate at is room temperature, a team of researchers at Tohoku University demonstrated that terbium oxide Tb 2 (MoO 4) 3 works as a ...

What the research is about Most materials we use in everyday life expand slightly when heated and return to their ...

Materials with high magnetoelectric coupling could be useful in novel devices such as magnetic computer memories, chemical sensors and quantum computers. When researchers irradiate a thin layer of ...

Scientists have created flexible composite material on the base of polymers and nanoparticles of cobalt ferrite, that is able to transform magnetic fields into electric tension. Such transformation ...

Over the last few decades, multiferroics have emerged as a frontier in condensed matter physics and material science. Multiferroics are unique in their ability to exhibit both ferroelectric and ...

Materials that lose functionality due to elevated temperatures, whether from ambient conditions or device-generated heat, have limited practical applications. This challenge is a primary limitation of ...