With the increasing waste heat production by today’s electronics in ever smaller spaces, drawing this heat away quickly enough to prevent thermal throttling or damage is a major concern. This is where ...

Brings together Paragraf’s commercially scalable graphene platform with Archer Materials’ domain expertise in quantum device ...

Archer Materials will contribute its experience in quantum materials, device physics and sensing technologies, supporting the ...

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 ...

Researchers have demonstrated a new technique for creating 2D materials that runs at room temperature and increases ...

During a parabolic flight over Europe, a small slab of graphene aerogel floated in near-weightlessness while a laboratory laser fired into it. The material moved. Not because of a chemical reaction or ...

New research from KAIST has clarified how graphene oxide's antibacterial properties work, revealing it selectively attacks ...

Scientists have uncovered how graphene oxide pulls off a remarkable trick: it hunts down and destroys harmful bacteria while ...

Graphene is often regarded as one of the strongest known materials. It is about 200 times stronger than steel while remaining exceptionally lightweight and flexible. 1 Despite these advantages, ...