On the potential of long carbon nanotube forest for sensing gases and vapors

Abstract Ensembles of contacting carbon nanotubes (CNTs) undergo changes of electrical resistance at exposition to an ambient gas atmosphere due to the sensitivity of their electronic structure to adsorbed molecules. This phenomenon has been studied in dependence on temperature, the purity of carrier gas and operational history using a sensor-like device prepared by means of a vertically aligned multi-walled CNT forest. The CNT ensemble was grown by aerosol-assisted chemical vapor deposition using a ferrocene–acetonitrile solution. The sensitivity to O 2 , CO 2 , NH 3 , CH 4 and C 2 H 4 was measured at different temperatures. The presented study allows the conclusion that the high sensitivity of the carbon surface to changes of temperature, vaporized water and oxygen present in the air or to contaminations of the carrier gas decreases the potential of carbon-based devices for practical sensing applications. A possible mechanism of working of CNT-based sensing devices is discussed.