Room-temperature magnetic and electronic traits make phosphorene nanoribbons promising for next-gen, energy-efficient nanoelectronics.

The colloids are paramagnetic, so they only behave magnetically when they are near a magnet or an external magnetic field. Calculated changes of the magnetic field create areas on the chessboard ...

Recent findings reveal phosphorene nanoribbons exhibit intrinsic magnetic and semiconducting properties, paving the way for ...

A theoretical study demonstrates magnetic force lowers blood pressure fluctuations and stabilises flow, setting the stage for ...

one with magnetic coils and another with permanent magnets around their microscope. They created a uniform magnetic field and ...

The ability to conduct heat is one of the most fundamental properties of matter, crucial for engineering applications. Scientists know well how conventional materials, such as metals and insulators, ...

A material’s response to an applied magnetic field can be characterized as diamagnetic, paramagnetic, ferromagnetic or antiferromagnetic. Four-coordinate cobalt(II) complexes possess high energy ...

“It’s a love story, baby just say ‘yes’ ” to celebrating the MagLab’s “Science Eras” at the National High Magnetic ... s strongest magnet or go on a scavenger hunt around the ...

Researchers demonstrate how phosphorene nanoribbons' magnetic properties interact with light, paving the way for new quantum technologies.