Beneath our feet, an invisible world of electron exchanges quietly drives the chemistry that sustains ecosystems, controls ...

Electrons flow underground in ways far more extensive than once believed, forming networks that link distant chemical zones. Minerals, organic molecules, and specialized bacteria can act as bridges, ...

Inside the microchips powering the device you're reading this on, the atoms have a hidden order all their own. A team led by ...

Transistors, the building blocks of modern electronics, are typically made of silicon. Because it’s a semiconductor, this ...

Most people have a phone charger plugged in next to their bed, which they never bother to switch off at the wall - but is that risky to do?

A new thermogalvanic device uses nanoparticles to control ion flow, allowing it to convert waste heat to electricity and store the energy without external batteries.

From simple transistors to complex systems, this article explains the building blocks of digital logic design. Learn how ...

Moving excitons with light and a nano-ridge could help bridge optics and electronics, enabling new devices and faster, more efficient communication.

The study is published in the journal ACS Nano. University of Michigan engineers have created a new nanostructure that can guide and stop excitons at room temperature. Excitons are quantum ...

It has been understandably obscured by other news. But, on September 2, in Ozurumba v. Bondi, the US Court of Appeals for the Fourth Circuit ruled that performing forced labor for a terrorist ...