Sergei Bulyarsky, Vyacheslav Galperin, Levan Ichkitidze, Michael Ermakov, Alexander Pavlov, Yuri Shaman
National Research University of Electronic Technology (MIET), Moscow, Russia.
nstitute of Nanotechnology of Microelectronics RAS, Moscow, Russia.
Scientific Manufacturing Complex “Technological Centre”, Moscow, Russia.
Ulyanovsk State University, Ulyanovsk, Russia.
DOI: 10.4236/msa.2013.45A002   PDF    HTML     2,950 Downloads   4,212 Views   Citations

Abstract

The results of the research and development of the moisture-sensitive elements based on the carbon nanotubes (CNT) array are presented. It was shown that CNT arrays that were grown by low-temperature plasma enhanced chemical vapor deposition (PECVD) method on the planar Si structures exhibit extremely high moisture sensitivity. The structure resistance ratio in dry and moisture conditions exceed 400. Such relatively high change in resistances is conditioned by the pattern of change of the charge carrier’s conductivity between certain nanotubes in the bundle when water molecules adsorption occurs.

Keywords

Carbon Nanotubes; Moisture-Sensitive Elements; Conductivity; Molecules Adsorption

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Conflicts of Interest

The authors declare no conflicts of interest.

References

[1]	S. Bulyarsky, “Carbon Nanotubes: Technology, Property Control, Application,” Ulyanovsk State University (Russia), Ulyanovsk, 2011, 478 pages. http://artlib.osu.ru/web/books/content_all/332.pdf
[2]	A. Striolo, A. A. Chialvo, K. E. Gubbins and P. T. Cummings, “Water in Carbon Nanotubes: Adsorption Isotherms and Thermodynamic Properties from Molecular Simulation,” Journal of Chemical Physics, Vol. 122, No. 23, 2005, Article ID: 234712. doi:10.1063/1.1924697
[3]	O. B. Tomilin and U. U. Muryumin, “Carbon Nanotubes Adsorption on the Graphene Surface and Their Energy Spectrum,” Solid State Physics (Russia), Vol. 48, No. 3, 2006, pp. 563-571.
[4]	S. V. Bulyarsky, N. S. Grushko and A. Zhukov, “Calculating the Probability of Optical Transitions in Strong Electric Fields,” Journal of Experimental and Theoretical Physics (Russia), Vol. 118, No. 11, 2000, pp. 1092-1098.
[5]	S. V. Bulyarsky, Y. V. Rud, L. N. Vostrezova, A. S. Kagarmanov and O. A. Trifonov, “Tunneling Recombination in Semiconductor Structures with Nanodisorder,” Physics and Technology of Semiconductors (Russia), Vol. 43, No. 4, 2009, pp. 460-466.
[6]	N. Mott and A. Davis, “Electronic Processes in NonCrystalline Materials,” Clarendon Press, Oxford, 1979, 590 pages.