Graphene's enduring appeal lies in its remarkable combination of lightness, flexibility, and strength. Now, researchers have shown that under pressure, it can briefly take on the traits of one of its ...

Juan Casado Cordón, Professor of Physical Chemistry at the University of Malaga, considers graphene—an infinite layer of carbon atoms—as one of the greatest discoveries of the last 20 years due to its ...

A team at Ohio State University has found a way to flip superconductivity on and off in a material just two atoms thick, not ...

A study led by Prof. Wei Li and Prof. Qi-Kun Xue and published in National Science Review reveals how strain controls ...

Researchers from the Complutense University, coordinated by Professor Nazario Martín, and the University of Malaga, led by Casado Cordón, have developed a new molecular model of bilayer graphene with ...

Electron transport in bilayer graphene exhibits a pronounced dependence on edge states and a nonlocal transport mechanism, according to a recent study. Electron transport in bilayer graphene exhibits ...

A recent study published in Nano Letters sheds new light on the intricate behavior of electron transport in bilayer graphene, highlighting the critical role of edge states and a unique nonlocal ...

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 ...

The molecule developed by scientists from the UMA and UCM is capable of controlling the rotation between parallel segments of this material and generating an efficient and durable ionic charge ...