Superconducting materials are similar to the carpool lane in a congested interstate. Like commuters who ride together, ...

Graphene — a single layer of carbon atoms arranged in a honeycomb lattice — is already attracting interest for its various applications in electronics and optoelectronics, including its use as ...

Use precise geolocation data and actively scan device characteristics for identification. This is done to store and access ...

The unexpected result started a debate in the community because theory predicted that it would take billions of years for a proton to permeate through graphene’s dense crystalline structure. This had ...

The Würzburg model system consisting of two nanographene layers that can absorb and bind chloride ions (green) through a defect in the crystal lattice. (Image: Kazutaka Shoyama, University of Würzburg ...

Engineers have long dreamed of creating a wonderful material that can revolutionize construction. In 2004, their dream came ...

The Würzburg model system consisting of two nanographene layers that can absorb and bind chloride ions (green) through a defect in the crystal lattice. Graphene is an extremely thin, flexible and ...

It is particularly interesting for scientists to be able to control the permeability of graphene for different substances. "So-called defects can be created in the carbon lattice of graphene.

The findings were published in Nature. The Würzburg model system consisting of two nanographene layers that can absorb and bind chloride ions (green) through a defect in the crystal lattice. Image ...

Graphene batteries are advanced energy storage devices that utilize graphene’s unique hexagonal carbon lattice structure. Unlike traditional lithium-ion batteries (LIBs) with graphite electrodes, ...