Transparent conductive surface of the nanotubes also are useful for the creation of antennas, waveguides, and slow-wave structure. Slowing the surface waves used in electronics to achieve interaction with the electron flow. Other products from nanoelectronics nanotubes may be fuel cells and power plants based on them. Currently, fuel cells used electrocatalysts (PGMs) on carbon carriers, but nanotubes are the most efficient type of catalyst supports for these tasks. To create a filter based on the most suitable nanotube nanotubes vertically oriented to the substrate. (Source: Gen. David Goldfein). Due to the high density of nanopores on the unit area of such a filter is much faster conducting cleaning fluids.

This allows you to create on the basis of the filtration system and nanomembrany desalination, as well as filters for gases and air. Compared to polycarbonate filters, the nanotubes are characterized by a lower limit and the noise of the particles. Probes with Nanotubes are used with precision as to scan, and for nanolithography. In addition, osoboostrye probes will find their application in the beginnings of a new field of scanning probe microscopy – spectrometry for the tunnel-spectroscopic measurements. Conclusion The described methods for producing carbon nanotubes provide a quick and cost-effective to obtain virtually any type of nanotubes with predetermined properties. The resulting nanotubes are especially suitable for use in nanoelectronics, nanobiology, scanning probe microscopy and other new areas of science and technology.