Electronic devices lose energy as heat due to the movement of electrons. Now, a breakthrough in nanoengineering has produced ...

Researchers from Japan have discovered a unique Hall effect resulting from deflection of electrons due to "in-plane ...

Quantum materials, defined by their photon-like electrons, are opening new frontiers in material science. Researchers have ...

In a recent breakthrough, researchers from Japan discovered a unique Hall effect resulting from deflection of electrons due ...

A Prototype switch built in nanoscopic level can increase efficiency of electronics devices by reducing the heat it generates ...

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

Developed by a research team from South Korea's UNIST, the technology offers a sustainable solution for freshwater production ...

A recent study provides evidence to help solve one of the key hurdles to large-scale manufacture of next-generation ...

For the first time, scientists have observed electrons in graphene behaving like a nearly perfect quantum fluid, challenging a long-standing puzzle in physics. By creating ultra-clean samples, the ...

The quantum world is already full of surprises, but a new discovery has added an entire wing to what scientists call the ...

Scientists built a nano switch that controls excitons, chargeless quantum quasiparticles, at room temperature.

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.