A 0.8 nm amorphous carbon coating grown on hard disk media matches the protective performance of films three times thicker, opening a path to far higher storage density.

Laser shockwaves convert carbon nanotube films into multilayer graphene without external heating, boosting thermal ...

Most materials have an inherent capacity to handle heat. Plastic, for instance, is typically a poor thermal conductor, whereas materials like marble move heat more efficiently.

Singaporean researchers grow a 0.8 nm carbon layer on hard drives, bringing the write head closer to the magnetic layer.

Supercomputer-based simulations reveal the intricacies of sodium-ion clustering and transport in hard carbon nano-pores, report researchers from ...

Deep inside a nearby galaxy, a black hole sits behind a thick wall of dust. Almost all its light gets trapped. Yet the chemistry inside that buried core still leaves tracks you can read, if you look ...

In medicine, security, nuclear safety and scientific research, X-rays are essential tools for seeing what remains hidden. The materials used to create X-ray detectors can be rigid, expensive and ...

JWST organic molecules in IRAS 07251-0248 reveal rich hydrocarbons, dust and water ice, reshaping life-precursor chemistry !!

But the real truth is that alien life on other planets could be even stranger than floating balloons or amorphous organisms ...

The performance and stability of smartphones and artificial intelligence (AI) services depend on how uniformly and precisely semiconductor surfaces are processed. KAIST researchers have expanded the ...