Newly published research demonstrates a novel way of generating phonon-polaritons by making electrons collide with crystal lattice structures. The discovery paves the way for cheaper, smaller ...

Scientists are investigating how structures made from several layers of graphene stack up in terms of their fundamental physics and their potential as reconfigurable semiconductors for advanced ...

The work 'Hyperbolic phonon-polariton electroluminescence in 2D heterostructures', led by researchers at the US Advanced ...

Researchers have revealed new insights into rhombohedral stacking in graphene, reporting on how it behaves as a semiconductor ...

Imagine electronic devices that never overheat and sensors that detect pollutants with unmatched precision. Researchers at ...

University of Texas at Dallas scientists are investigating how structures made from several layers of graphene stack up in terms of their fundamental ...

Graphene not only has the incredible physical properties you'd expect from a sheet of crystal, widely cited as the strongest material ever created on a per-weight basis, but it also has incredibly ...

Graphene, and the carbon nanotubes that can be made from it, has incredible potential for a wide variety of industries.

Phasons, low-temperature quasiparticles found in crystal lattices, help interlayer excitons move at ultra-low temperatures, ...

Phonon-polaritons are a unique type of electromagnetic wave that occurs when light interacts with vibrations in a material's crystal lattice ... a thin layer of graphene sandwiched between two ...