Interest in nanomaterials has been growing rapidly for the past several years. For example, carbon nanotubes (CNTs) are promising as new materials for a variety of potential applications. Recently, CNT-based gas sensors have received considerable attention because of their outstanding properties, such as faster response, higher sensitivity, lower operating temperature and wider variety of gases that may be detected compared with the other types of gas sensors. The CNT-based gas sensing utilizes a change in an electrical property due to adsorption of gas molecules as the output signal. This means that CNTs need to be electrically conne
cted to the external measuring circuit. We developed a novel method of fabricating a CNT-based gas sensor using dielectrophoresis (DEP). The DEP fabricated CNT sensor can detect low concentration (ppm level) toxic gases such as NO2 and NH3 at room temperature.
One advantage of the ac electrokinetic manipulation technique is that one can quantify the amount of trapped CNTs on a real time basis by monitoring electrical impedance of the sensor (dielectrophoretic impedance measurement, DEPIM). This feature enables to control the CNT sensor response. T
he other advantage is that various combinations of nanomaterials and the microelectrode materials can be realized because two processes of the nanomaterial synthesis and the sensor fabrication are separated. The DEP fabrication method has been successfully applied to the other type of nanomaterials, such as carbon nanohorn, ZnO nanowire and palladium (Pd) nanoparticles. By DEP trapping CNTs on aluminum (Al) microelecrode, Schottky-type NO2 gas sensor with faster response can be fabricated.
 

Fabrication of nanomaterial-based sensor using dielectrophoresis

  1. 1.Bacterial detection using a carbon nanotube gas sensor coupled with a microheater for ammonia synthesis by aerobic oxidization of organic components
    IET Nanobiotechnology, Volume 3, Issue 2, 2009, Pages 15-22
    J. Suehiro, N. Ikeda, A. Ohtsubo and K. Imasaka
    abstract

  2. 2.Fabrication of bio/nano interfaces between biological cells and carbon nanotubes using dielectrophoresis
    Microfluidics and Nanofluidics, Volume 5, Number 6, December 2008, Pages 741-747
    J. Suehiro, N. Ikeda, A. Ohtsubo and K. Imasaka
    abstract

  3. 3.Aligned growth of ZnO nanowires and lasing in single ZnO nanowire optical cavities
    Applied Physics B: Lasers and Optics, Volume 90, Numbers 3-4, March 2008, Pages 539-542
    R.Q. Guo, J. Nishimura, M. Matsumoto, M. Higashihata, D. Nakamura, J. Suehiro and T. Okada
    abstract

  4. 4.Fabrication of interfaces between carbon nanotubes and catalytic palladium using dielectrophoresis and its application to hydrogen gas sensor
    Sensors and Actuators B: Chemical, Volume 127, Issue 2, 15 November 2007, Pages 505–511
    J. Suehiro, S. Hidaka, S. Yamane and K. Imasaka
    abstract

  5. 5.Carbon nanotube-based hydrogen gas sensor electrochemically functionalized with palladium
    Proceedings of IEEE Sensors 2007, art. no. 4388458, pp. 554-557
    J. Suehiro, S. Yamane and K. Imasaka
    abstract

  6. 6.Synthesis of nano-structured materials by laser-ablation and their application to sensors
    Applied Surface Science, Volume 253, Issue 19, 31 July 2007, Pages 7840-7847
    T. Okada and J. Suehiro
    abstract

  7. 7.Gas sensor using single-wall carbon nanohorns
    Advanced Powder Technology, Vol. 18, No. 4, pp. 455–466, 2007
    N. Sano, M. Kinugasa, F. Otsuki and J. Suehiro
    abstract

  8. 8.Application of dielectrophoresis to fabrication of carbon nanohorn gas sensor
    Journal of Electrostatics, Volume 64, Issue 6, June 2006, Pages 408-415
    J. Suehiro, N. Sano, G. Zhou, H. Imakiire, K. Imasaka and M. Hara
    abstract

  9. 9.Dielectrophoretic fabrication and characterization of a ZnO nanowire-based UV photosensor
    Nanotechnology, Volume 17, No. 10, 28 May 2006, Pages 2567-2573
    J. Suehiro, N. Nakagawa, S. Hidaka, M. Ueda, K. Imasaka, M. Higashihata, T. Okada and M. Hara
    abstract

  10. 10.Schottky-type response of carbon nanotube NO2 gas sensor fabricated onto aluminum electrodes by dielectrophoresis
    Sensors and Actuators B: Chemical, Volume 114, Issue 2, 26 April 2006, Pages 943-949
    J. Suehiro, H. Imakiire, S. Hidaka, W. Ding, G. Zhou, K. Imasaka and M. Hara
    abstract

  11. 11.Controlled fabrication of carbon nanotube NO2 gas sensor using dielectrophoretic impedance measurement
    Sensors and Actuators B: Chemical, Volume 108, Issues 1-2, 22 July 2005, Pages 398-403
    J. Suehiro, G. Zhou, H. Imakiire, W. Ding and M. Hara
    abstract

  12. 12.Fabrication of a carbon nanotube-based gas sensor using dielectrophoresis and its application for ammonia detection by impedance spectroscopy
    J. Phys. D: Appl. Phys., Vol.36, pp.L109-L114, 2003
    J. Suehiro, G. Zhou and M. Hara
    abstract


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