carbon nanotube

Carbon nanotube is one of the strongest materials in nature.

The carbon nanotube is an example of a quantum wire.

A process similar to the making of a carbon nanotube using a hydrocarbon gas.

Currently only receivers have been developed and they are structured around a carbon nanotube.

Recent increases in cost are also forcing many to look to carbon nanotube films as a potential alternative.

The carbon nanotube degrades in a few days when exposed to oxygen.

Another way to make carbon nanotube transistors has been to use random networks of them.

The world smallest thermometer based on a single-wall carbon nanotube.

In 2008, large format carbon nanotube sheets began being produced at Nanocomp.

The current (2009) carbon nanotube technology allows growing tubes up to a few tens of centimeters.

For example, bones could be regrown on carbon nanotube scaffolds.

This is relevant in carbon nanotube quantum dot systems.

A new "nanohoop" molecule may allow much longer and higher quality carbon nanotube manufacturing.

Large carbon nanotube sheets have been produced by an American company, with more strength than stainless steel and 1/30th of the density.

This created dipole-dipole layers along the carbon nanotube walls.

- visitors build a model of a giant carbon nanotube; Where can you find nano?

The latest developments in carbon nanotube technology bring the orbital elevator closer to possible realisation.

The cable stuck out of the ruins like a black line of carbon nanotube fibers.

This would make it possible to build the elevator much sooner, since available carbon nanotube materials in sufficient quantities are still years away.

A carbon nanotube's bandgap is directly affected by its chirality and diameter.

The released gas dramatically increases the actuator stroke from the carbon nanotube sheet.

Cables behind walls that we can re-route, and bare carbon nanotube surfaces."

The principal factory on New Clarke made a cable of carbon nanotube filaments.

Raman spectroscopy is a powerful technique with wide ranging applications in carbon nanotube studies.

A relatively new area has emerged using carbon nanotube networks as a transparent conductor for organic solar cells.