This illustration depicts a new technique that uses a pulsing laser to create synthetic nanodiamond films and patterns from graphite, with potential applications from biosensors to computer chips.

Physicists have found a way to systematically study and control the transition of graphite, the “lead” found in pencils, to graphene, one of the strongest, lightest and most conductive materials known ...

Researchers at the University of Oxford have developed a powerful new method to visualize an essential lithium-ion battery electrode component that had been extremely difficult to trace before. The ...

Graphite beneficiation and purification remain pivotal to maximising the value and applicability of graphite in advanced technologies. A combination of physical and chemical processes – such as ...

A group of scientists from Osaka University, in cooperation with Kaneka Corporation, evaluated the interplanar bond strength of graphene by measuring the elastic constant of graphite, demonstrating ...

(Nanowerk News) A group of scientists from Osaka University, in cooperation with Kaneka Corporation, evaluated the interplanar bond strength of graphene by measuring the elastic constant of graphite, ...

PRESTEIGNE, Wales--(BUSINESS WIRE)--Teledyne Labtech announces a major new capability allowing the embedding of layers of synthetic graphite within RF and microwave printed circuit boards (PCBs). Heat ...