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

A surprising discovery reveals that carbon nanotubes made from CO2 spontaneously create intense, stable plasma in ordinary ...

Known as antiferromagnetism, it's a phenomenon that has been theorized and tinkered with for the better part of a century.

Scientists have found an elusive third form of magnetism that could help solve a longstanding puzzle about superconductors.

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

Metamaterials offer unique properties by combining "meta" (beyond) and "material," providing electromagnetic characteristics superior to conventional ...

Magnetism plays a crucial role in enabling various applications, ranging from memory storage devices to advanced medical imaging, energy-efficient electric motors, magnetic sensors, and emerging ...

Diffusion generation process for a stable crystalline material possessing high magnetic density and containing no critical elements using the MatterGen model. In industries like energy and healthcare, ...

This much anticipated novel comes from the mind of Pulitzer-Prize and National Book Award finalist, Laila Lalami. The brilliantly twisted piece of literary science fiction is a timely examination ...

A research team led by scientists at Northwestern University has developed the first-ever two-dimensional mechanically interlocked material with high flexibility and strength. In the future ...

In the literary world, this year is shaping up to be a good one for fans of cultural criticism: There are new books about Better Call Saul and biographies of James Gandolfini and Lorne Michaels on ...

It can generate materials with desired chemistry, mechanical, electronic, or magnetic properties, as well as combinations of different constraints. MatterGen enables a new paradigm of generative ...