Spintronics uses the spins of electrons to perform logic operations or store information. Ideally, spintronic devices could ...

Van der Waals heterostructures are engineered by stacking different van der Waals materials in a controlled sequence, allowing the creation of new materials with tailored properties. This technique ...

Spintronic devices work with spin textures caused by quantum-physical interactions. Scientists have now studied graphene-cobalt-iridium heterostructures at BESSY II. The results show how two desired ...

Gallium nitride-based semiconductors have been a boon for high-frequency and power electronics. They've also revolutionized ...

As this goes hand-in-hand with potentially relaxed fabrication and packaging requirements, the PCSEL makes a compelling case ...

Topological protection provides unprecedented robustness of physical phenomena against all kinds of perturbations; but in ...

Rechargeable magnesium batteries (RMBs) hold significant promise for next-generation energy storage, owing to their low cost, high volumetric capacity (3833 mA h cm⁻³), and dendrite-free formation.

The findings, from a team led by Professor Rahul Nair, could speed up the process of manufacturing such devices – so-called van der Waals heterostructures – with application in high-mobility ...

As computing technology advances, we have shifted from using large, single-chip processors to systems made up of smaller, ...

Spintronics uses the spins of electrons to perform logic operations or store information. Ideally, spintronic devices could operate faster and more ...