• DocumentCode
    1158087
  • Title

    Nanoparticle metal-oxide films for micro-hotplate-based gas sensor systems

  • Author

    Ivanov, Peter ; Stankova, Mariana ; Llobet, Eduard ; Vilanova, Xavier ; Brezmes, Jesús ; Gràcia, Isabel ; Cané, Carles ; Calderer, Josep ; Correig, Xavier

  • Author_Institution
    Dept. d´´Enginyeria Electron., Univ. Rovira i Virgili, Tarragona, Spain
  • Volume
    5
  • Issue
    5
  • fYear
    2005
  • Firstpage
    798
  • Lastpage
    809
  • Abstract
    We report on the use of either reactive magnetron sputtering or screen printing to deposit tin and tungsten-oxide gas-sensitive layers onto integrated micromachined arrays. The procedures allow the deposition of the sensing layers before membranes have been etched, which leads to gas microsensors with an excellent fabrication yield. The microstructure of the sensitive films is analyzed by means of SEM and EDX. The response of the different microarrays to ethanol, acetone, and ammonia vapors and their binary mixtures, and toxic gases such as NO2 and CO, is studied at different operating temperatures. The response of the different sensors to ambient humidity is also investigated. Finally, it is shown that by using PCA and fuzzy ARTMAP neural networks, it is possible to simultaneously identify and quantify the toxic gases with a 100% success rate. A 95% success rate is obtained in the semi-quantitative analysis of vapors and vapor mixtures. These results prove the viability and usefulness of the techniques introduced to obtain integrated sensor microarrays that are suitable for battery-powered gas/vapor monitors.
  • Keywords
    fuzzy neural nets; gas sensors; metallic thin films; microsensors; nanoparticles; principal component analysis; sputter deposition; sputter etching; tin; tungsten compounds; PCA; array signal processing; fuzzy ARTMAP neural networks; fuzzy neural nets; gas microsensors; gas sensor systems; integrated micromachined arrays; integrated sensor microarrays; metallic thin films; micro-hotplate; nanoparticle metal-oxide films; principal component analysis; reactive magnetron sputtering; screen printing; sputter deposition; sputter etching; tin gas sensitive layers; tungsten-oxide gas-sensitive layers; Biomembranes; Fabrication; Gas detectors; Gases; Microsensors; Microstructure; Printing; Sputter etching; Sputtering; Tin; Integrated microarray; microhotplate; quantitative gas analysis; r.f. sputtering; screen printing; tin/tungsten oxide;
  • fLanguage
    English
  • Journal_Title
    Sensors Journal, IEEE
  • Publisher
    ieee
  • ISSN
    1530-437X
  • Type

    jour

  • DOI
    10.1109/JSEN.2005.844340
  • Filename
    1504733