Graphene samples with areas of several square centimetres and excellent electrical and optical properties have been fabricated using chemical vapour deposition. The three approaches are similar to ...

Researchers from the University of British Columbia, the University of Washington, and Johns Hopkins University have ...

chemical stability, and thermal conductivity. The authors note, however, that before graphene-based nanomaterials and devices find widespread commercial use, two important problems have to be solved: ...

Scientists have made a significant breakthrough in understanding the growth of "white graphene" on metal substrates. This ...

Janus graphene nanoribbons' zigzag edge hosts a ferromagnetic spin chain, paving the way for advances in quantum electronics and computing.

Microplasma devices are incredibly versatile tools for generating and sustaining plasmas on micro- and millimeter scales. The latest advances in nanotechnology now promise to expand their range of ...

To use graphene in a transistor, its band structure must be modified, often degrading its honeycomb structure and its other electrical properties. To preserve its 2D structure, the chemical nature of ...

Graphene is made up of carbon atoms. Boron nitride, BN, is composed of boron and nitrogen atoms. While their chemical formulas differ, they have a similar structure – so similar that many ...

worked with three layers of graphene. Each layer was twisted on top of the next at the same angle, creating a helical ...