“ Humans have long stored energy in mechanical coil springs to power devices such as watches and toys,” Sanjeev Kumar Ujjain, a co-lead author of the study from the University of Maryland Baltimore ...

which is utilized in secondary batteries as a conductor. Adding carbon nanotubes (CNTs) as a conductive additive can considerably raise the energy density of secondary batteries. However ...

CNTs are one-dimensional nanomaterials that are more flexible and electrically conductive than carbon black, which is used as a conductor in secondary batteries. When used as a conductive additive ...

Now, the team from MIT says that carbon nanotubes have proven they could hold the key to super-powerful or super-lightweight batteries in the future. They're not the only ones working on nanotube ...

A team of researchers at the Korea Electrotechnology Research Institute (KERI) has achieved a breakthrough that could have a ...

to next-generation batteries and computer chips. The miniature forest consists of super-growth, single-walled carbon nanotubes that are roughly a million times longer than they are wide.

Carbon-based batteries, such as those using graphene, have better application potential compared to lithium-ion batteries, as ...

“Carbon nanotubes, discovered by Japanese researchers in 1991, initially garnered attention for their extraordinary strength, conductivity, and adaptability for use in semiconductors, batteries ...

Well, we watch-less ones have something to look forward to, because a group of graduate students at Rice University have created extremely strong conductive thread woven from carbon nanotubes ...

Carbon nanotubes have many desirable properties such as a high strength and low weight compared with volume, energy and fuel storage capability, electron emission capability and many advantageous ...