Scientists at the Max Born Institute have developed a new soft X-ray instrument that can reveal dynamics of magnetic domains ...

Solid-state batteries promise safer, lighter, and more energy-dense power packs, yet commercial products keep slipping further into the future. A growing body of lab work now points to a subtle ...

Unlike their mid-century ancestors, today's plastics are being reimagined through ultra-thin layering at the molecular level.

In hydrogen production catalysts, water droplets must detach easily from the surface to prevent blockage by bubbles, allowing for faster hydrogen generation. In semiconductor manufacturing, the ...

Since the early 2010s, ultrafast probing of materials at atomic-level resolution has been enabled by terahertz scanning tunneling microscopes (THz-STM). But these devices can't detect the dissipation ...

Traditional Conductive AFM (C-AFM) seems to be moving aside to make space for a more advanced technology: ResiScope III – a new module for the Nano-Observer II AFM system. This move represents a major ...

Spin waves could unlock the next generation of computer technology, a new component allows physicists to control them. Researchers at Aalto University have developed a new device for spintronics. The ...

A new discovery is an important step towards smaller, more advanced electronics. And maybe more environmentally friendly gadgets, too. Researchers at the Norwegian University of Science and Technology ...

Solid-state batteries promise safer, lighter, and more energy-dense power packs for everything from smartphones to long-range electric cars, yet their real-world performance keeps falling short of the ...