Given the high quality of the carbon lattice ... graphene a unique material for the development of high-frequency transistors up to the terahertz domain. Alternatively, the two-dimensional crystal ...

The researchers had previously found that protons easily permeate through graphene’s crystal lattice. However, it remained unknown whether other small ions could pierce the dense crystal lattice in ...

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 ...

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 ...

Forced to run a labyrinth of carbon atoms uniquely arranged in twisted stacks, electrons do some rather peculiar things.

Moiré patterns generated from overlaying hexagonal lattices. Three different lattices (red, black, and blue) consecutively superimposed in that order, where they represent hBN, graphene, and hBN, ...

Superconductivity is a widely sought after material property, which entails an electrical resistance of zero below a specific critical temperature. So far, it has been observed in various materials, ...

Researchers have identified a new class of quantum states in a custom-engineered graphene structure ... is guaranteed by a property of electron crystal known as topology, which describes the ...