Researchers from the National University of Singapore (NUS) have recently achieved a significant breakthrough in the development of next-generation carbon-based quantum materials, opening new horizons ...

GNRs are one-dimensional strips of graphene, a single layer of carbon atoms arranged in a two-dimensional honeycomb lattice. Unlike graphene sheets, which extend indefinitely in two dimensions, ...

Graphene nanoribbons (GNRs) are narrow strips of graphene whose remarkable electronic properties arise from their reduced dimensionality and unique edge configurations. The quantum confinement and ...

The study was conducted under the leadership of an international research team, that included Prof. Michael Urbakh and Prof. Oded Hod from TAU’s School of Chemistry, as well as scientists from China, ...

Atomic imaging shows graphene nanoribbons retain atomic structure and adjustable electronic alignment after transfer to graphene, offering a clear route toward stable, reproducible nanoelectronic ...

A technical paper titled “Contact engineering for graphene nanoribbon devices” was published by researchers at University of Arizona, Swiss Federal Labs for Materials Science and Technology, ...

A graphene nanoribbon connects porphyrin molecules – each featuring a metal center (red) – like a molecular string of Christmas lights. The metal atoms are held in place by four nitrogen atoms (blue) ...

The bleeding edge: After 10 years of study, researchers say they have finally created the world's first functional graphene-based semiconductor. It should prove helpful in quantum and traditional ...

An international collaborative study that features researchers from Tel Aviv University (TAU), presented a new method for growing ultra-long and ultra-narrow strips of graphene (a derivative of ...

GNRs can be synthesized through top-down or bottom-up methods, each providing precise control over their structure and enabling their use in advanced nanoelectronics and spintronics. GNRs are created ...