A team of researchers from the U.S. Dept. of Energy’s Brookhaven National Laboratory has discovered a new way that magnetic and electric properties can coexist in a special category of metals. These ...

A team of researchers at Rice University has engineered a new version of a well-known multiferroic that exhibits orders of ...

Researchers did this by mixing bismuth ferrite with barium titanate while growing the material as a thin film on a substrate ...

Researchers at Rice University have engineered a modified bismuth ferrite multiferroic that delivers 10 times higher magnetization and 100 times stronger magnetoelectric coupling at room temperature ...

A redesigned crystal structure unlocks rare magnetic and electric behaviour, hinting at alternative computing approaches ...

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 ...

A new UNSW study comprehensively reviews the magnetic structure of the multiferroic material bismuth ferrite (BiFeO 3 - BFO). The review advances FLEET's search for low-energy electronics, bringing ...

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 ...

Microscopic aspects of ferroelectricity are canonically related to polar atomic displacements that break inversion symmetry of the crystal, leading to a non-zero net electric dipole moment. However, ...

(Nanowerk News) A new University of New South Wales (UNSW) study comprehensively reviews the magnetic structure of the multiferroic material bismuth ferrite (BiFeO3 – BFO). BFO is unique in that it ...

Big data and exponential demands for computations are driving an unsustainable rise in global ICT energy use. A new study reviews the use of the 'multiferroic' material bismuth-ferrite, which allows ...