Deep inside a dust-choked galaxy, astronomers have uncovered a chemical environment far more complex than expected.

New photos captured by NASA's Curiosity rover show that Mars' giant, spiderweb-like "boxwork" features are covered in tiny, never-before-seen nodules that bear a striking resemblance to arachnid eggs.

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

Researchers reveal new mechanisms governing the storage and the movement of sodium ions in hard carbon nanopore anodes.

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

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

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. If you were to place ...

Abstract: Aiming at the theoretical calculation of electromagnetic shielding effectiveness (SE) for carbon fiber honeycomb structures used in transparent stealth windows, this paper proposes a ...

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 ...

Abstract: Although the intrinsic thermal conductivity is merit, carbon fiber based thermal interface material is not confident to be employed as candidates to help dissipating heat generated from the ...