Researchers from Skoltech, MIPT, and elsewhere have found a fast and inexpensive way to create geometric patterns in carbon ...

A research team at the University of Pittsburgh led by Alexander Star, a chemistry professor in the Kenneth P. Dietrich ...

Fiber-like electrodes with exceptional strength, lightness, and flexibility, promises improved energy storage in wearable ...

Plenty of people just plain dislike wearing jewelry, even (or especially) smart watches. Nevertheless, they’d like to have biofeedback like everybody else. Well, we watch-less ones have ...

In particular, the team managed to assemble arrays of carbon nanotube transistors that outperform their silicon-based predecessors. One obstacle the researchers had to overcome were metallic ...

High-performance systems generate tremendous amounts of heat that can compromise missions and make high-tech systems less ...

More information: Yoonhee Lee et al, Carbon-nanotube field-effect transistors for resolving single-molecule aptamer–ligand ...

Now, however, there is a technology under development that combines the excellent performance of the CRT with the thin form factor of a flat-panel display: the carbon-nanotube flat panel — a ...

Several CNT manufacturers have >100 ton per year production capacity for multi walled nanotubes. A nanotube may consist of one tube of graphite, a one-atom thick single-wall nanotube, or a number of ...

A single-walled carbon nanotube can be conceptualized as a single-atom-thick sheet of graphene rolled up to form a long, thin tube. As well as exceptional strength, these carbon nanomaterials ...

Three-day hands-on workshop from June 11-13 in Leuven, Belgium, will equip participants with a better understanding of fiber optic sensing technology for digital manufacturing of composite tanks.