Modern low-power solutions to computer memory rely heavily on the manipulation of the magnetic properties of materials.

In the field of molecular magnetism, the design of devices with technological applications at the nanoscale —quantum computing, molecular spintronics, magnetic cooling, nanomedicine, high ...

Rabi-like splitting is one of the key concepts in modern quantum technology. Fully understanding it can help us advance our ...

Without a clean interface, says Smith, when electrons travel across the barrier between the metal and semiconductor, they can lose their original spin, ruining the device. Moreover, their new system ...

Studies have demonstrated that tuning the molecular and electronic structure, as well as modulating interfacial properties, can yield significant variations in device performance.

Researchers at CIC nanoGUNE BRTA and other institutes recently realized a spintronic device that leverages proximity effects alone, specifically a 2D graphene-based spin valve.

Organic molecules allow producing printable electronics and solar cells with extraordinary properties. In spintronics, too, molecules open up the unexpected possibility of controlling the ...

A team of European scientist has developed a device capable of detecting an individual magnetic molecule. Such an unprecedented sensitivity opens new paths for spintronics.

Spintronics devices show promise in this context because they retain their magnetic state even when the power supply is switched off, something that it is not true for silicon memory chips. They also ...

Researchers in Europe have succeeded in creating molecular magnets capable of adopting a preferred orientation on a gold surface. The result is an important advance for the burgeoning field of ...