Using machine learning, a team of researchers in Canada has created ultrahigh-strength carbon nanolattices, resulting in a ...

IT is generally accepted that the lattice parameter of retained austenite in quenched iron—carbon alloys increases continuously and linearly with the increase of carbon content. So far ...

Researchers create ultra-strong, lightweight carbon structures using AI and advanced manufacturing. Researchers at the ...

Where would carbon-based life be without carbon? There are 118 known chemical elements, but carbon is the fourth most ...

Graphene has unique properties because of the perfection of its structure — electrons can travel through its hexagonal carbon lattice so easily that they effectively have no mass. Such ...

The AI came up with a nearly indestructible lattice structure. “By concurrently maximizing the mechanical response while minimizing relative density…these carbon nanolattices achieve the ...

Superconductivity is a widely sought after material property, which entails an electrical resistance of zero below a specific critical temperature. So far, it has been observed in various materials, ...

through a defect in the crystal lattice. Graphene is an extremely thin, flexible and resistant material made of pure carbon. It forms layers that consist of virtually a single layer of carbon atoms.