Two or more graphene layers that are stacked with a small twist angle in relation to each other form a so-called moiré ...

Physicists have watched a quantum fluid do something once thought almost impossible: stop moving. In experiments with ultra-thin graphene, researchers observed a superfluid—normally defined by its ...

Controlled defects in single-layer graphene pinpoint a critical 20 nm spacing where quantum interference traps electrons and ...

The carbon filament used in Edison’s 1897 light bulb experiments generated the precise amount of heat needed to produce ...

For nearly a century, some of the simplest questions in quantum theory have stubbornly resisted clean answers, turning basic ...

Physicists have observed a strange new quantum phase in a graphene-based system, where a superfluid appears to freeze into a solid-like state. Cooling usually pushes matter through a simple sequence.

Researchers now reveal how various physical manipulations of graphene, such as layering and twisting, impact its optical properties and conductivity. When it comes to electrically conductive ...

A research team led by Professor Youngwook Kim from the Department of Physics and Chemistry, DGIST, in collaboration with the research team of Professor Gil Young Cho at KAIST, have discovered a new ...

According to new research from Rice University, while Edison’s goal was simply to create a longer-lasting electric lamp, the ...