The relentless drive toward characteristic scale miniaturization and heterogeneous integration in micro/nano-optoelectronic devices have necessitated breakthroughs in energy storage technology.

The number of graphene layers determines specific properties. Both single-layer and bi-layer graphenes are zero band gap semiconductors because of the association between conduction and the valance ...

Swiss-British university spinoff, GraphEnergyTech, is developing graphene electrode technology to replace silver and other metals traditionally used in solar cell manufacturing. GraphEnergyTech, a U.K ...

The OFP-G method patterns monolayer graphene without photoresists or etching, enabling sub-5 micrometer electrodes while preserving conductivity and structural integrity. Transparent electrodes ...

Electrically switchable adhesion in a ferroelectric polymer film enables clean, fast, solvent-free transfer of graphene from copper growth substrates to target surfaces. The standard approach relies ...

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

In 2004, Andre Geim and Konstantin Novoselov at the University of Manchester in England achieved a breakthrough when they isolated graphene for the first time. A flat form of carbon made up of a ...