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Large-scale Production of Selective Gas Sensors Based on Carbon Nanotube Mats Transistors

Published online by Cambridge University Press:  01 February 2011

Louis Gorintin ,
Paolo Bondavalli ,
pierre legagneux  and
Marc Chatelet
Louis Gorintin
Affiliation:
louis.gorintin@thalesgroup.com, Thales Research and Technology, 91120, France
Paolo Bondavalli
Affiliation:
paolo.bondavalli@thalesgroup.com, Thales Research and Technology, Palaiseau, France
pierre legagneux
Affiliation:
pierre.legagneux@thalesgroup.com, Thales Research and Technology, Palaiseau, France
Marc Chatelet
Affiliation:
marc.chatelet@polytechnique.edu, Ecole Polytechnique, Palaiseau, France
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Abstract

The first paper showing the great potentiality of Carbon Nanotubes Field Effect transistors (CNTFETs) for gas sensing applications was published in 2000 [1]. It has been demonstrated that the performances of this kind of sensors are extremely interesting : a sensitivity of around 100ppt (e.g. for NO2 [2]) has been achieved in 2003 and several techniques to improve selectivity have been tested with very promising results [2]. The main issues that have not allowed, up to now, these devices to strike more largely the market of sensors, have been the lack of an industrial method to obtain low-cost devices, a demonstration of their selectivity in relevant environments and finally a deeper study on the effect of humidity and the possible solutions to reduce it. This contribution deals with CNTFETs based sensors fabricated using air-brush technique deposition on large surfaces. Compared to our last contribution [3], we have optimized the air-brush technique in order to obtain high performances transistors (Log(Ion)/ Log(Ioff) ~ 5/6) with highly reproducible characteristics : this is a key point for the industrial exploitation. We have developed a machine which allows us the dynamic deposition on heated substrates of the SWCNT solutions, improving dramatically the uniformity of the SWCNT mats. We have performed tests using different solvents that could be adapted as a function of the substrates (e.g. flexible substrates). Moreover these transistors have been achieved using different metal electrodes (patented approach [4]) in order to improve selectivity. Results of tests using NO2, NH3 with concentrations between ~ 1ppm and 10ppm will be shown during the meeting.

Keywords

sensorspray depositionthin film
Type
Research Article
Information
MRS Online Proceedings Library (OPL) , Volume 1253: Symposium K – Functional Materials and Nanostructures for Chemical and Bochemical Sensing , 2010 , 1253-K08-02
Copyright
Copyright © Materials Research Society 2010

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References

[1] Ausman, K.D., Piner, R., Lourie, O., Ruoff, R.S., et Korobov, M., “Organic solvent dispersions of single-walled carbon nanotubes: toward solutions of pristine nanotubes,” Journal of Physical Chemistry B, vol. 104, 2000, p. 89118915.Google Scholar
[2] Yamada, T., “Modeling of carbon nanotube Schottky barrier modulation under oxidizing conditions,” Physical review B. Condensed matter and materials physics, vol. 69, 2004, p. 125408–125408.Google Scholar
[3] Bondavalli, P., Legagneux, P., et Pribat, D., “Carbon nanotubes based transistors as gas sensors: State of the art and critical review,” Sensors and Actuators B: Chemical, vol. 140, Juin. 2009, p. 304318.Google Scholar
[4] Bondavalli, P., Legagneux, Pierre, Barny, Le, Pierre, Pribat, Didier, et Nagle, Julien, , “Patent WO/2006/128828, Array of Fet Transistors Having a Nanotube or Nanowire Semiconductor Element and Corresponding Electronic Device, For the Detection of Analytes,” U.S. Patent WO2006EP62615 20060524, Décembre 7, 2006.Google Scholar