Carbon nanotubes could revolutionize everything from space travel to medicine. Discovered in 1991, these tiny, incredibly ...

Carbon-based structures, such as carbon nanotubes (CNTs) have much higher electrical conductivity than copper, as does graphene. The main issue is that making wires out of them is not exactly ...

A surprising discovery reveals that carbon nanotubes made from CO2 spontaneously create intense, stable plasma in ordinary ...

Carbon nanotubes, nano-size cylinders made of carbon atoms, are attracting renewed interest for their role in the future of cars. Industry reports project that the global market for these ...

Carbon nanotubes present a game-changing solution for preventing defects in EUV lithography, supporting the semiconductor industry's drive toward extreme miniaturization and improved chip reliability.

Stronger than steel, lighter than air—are carbon nanotubes the key to the next industrial revolution? These microscopic tubes ...

Recycling materials, such as plastics and metals, is an attractive, but challenging path toward sustainable material ...

Achieving the strongest, thinnest, and most conductive graphene would require manufacturers to grow a perfect single layer, ...

"By using two different sources of carbon nanotubes, we ensured that our recycling process was representative of real-life conditions," said co-first author Michelle Durán-Chaves, a graduate ...

Through a series of dye tests, Muñoz-Marin and his team identified these bridges as 'bacterial nanotubes,' structures made of cell membranes that hold the bridges together. This is the first time ...