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Development of the Third Generation JPL Electronic Nose for International Space Station Technology Demonstration
Technical Paper
2007-01-3149
ISSN: 0148-7191, e-ISSN: 2688-3627
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English
Abstract
The capabilities of the JPL Electronic Nose have been expanded to include characteristics required for a Technology Demonstration schedule on the International Space Station (ISS) in 2008-2009 [1,2]. Concurrently, to accommodate specific needs on ISS, the processes, tools and analyses which influence all aspects of development of the device have also been expanded. The Third Generation ENose developed for this program uses two types of sensor substrates, newly developed inorganic and organic sensor materials, redesigned electronics, onboard near real-time data analysis and power and data interfaces specifically for ISS. This paper will discuss the Third Generation ENose with a focus on detection of mercury in the parts-per-billion range.
Authors
- A. V. Shevade - Jet Propulsion Laboratory, California Institute of Technology
- M. L. Homer - Jet Propulsion Laboratory, California Institute of Technology
- H. Zhou - Jet Propulsion Laboratory, California Institute of Technology
- A. D. Jewell - Jet Propulsion Laboratory, California Institute of Technology
- A. K. Kisor - Jet Propulsion Laboratory, California Institute of Technology
- K.S. Manatt - Jet Propulsion Laboratory, California Institute of Technology
- J. Torres - Jet Propulsion Laboratory, California Institute of Technology
- J. Soler - Jet Propulsion Laboratory, California Institute of Technology
- S.-P.S. Yen - Jet Propulsion Laboratory, California Institute of Technology
- M. A. Ryan - Jet Propulsion Laboratory, California Institute of Technology
- M. Blanco - Materials Simulation Center, California Institute of Technology
- W. A. Goddard - Materials Simulation Center, California Institute of Technology
Citation
Shevade, A., Homer, M., Zhou, H., Jewell, A. et al., "Development of the Third Generation JPL Electronic Nose for International Space Station Technology Demonstration," SAE Technical Paper 2007-01-3149, 2007, https://doi.org/10.4271/2007-01-3149.Also In
References
- Ryan M.A. Homer M.L. Zhou H. Manatt K. Manfreda A. Kisor A. Shevade A. Yen S.P.S. “Expanding the Analyte Set of the JPL Electronic Nose to Include Inorganic Species;” Journal of Aerospace, SAE Transactions, 2005-01-2880 2005
- Ryan M.A. Homer M.L. Zhou H. Manatt K. Manfreda A. Kisor A. Shevade A. Yen S.P.S. “Expanding the Capabilities of the JPL Electronic Nose for an International Space Station Technology Demonstration” Proc. 36 th Intl. Conf. on Environ. Systems, SAE, 2179 2006
- Ryan M.A. Homer M.L. Buehler M.G. Manatt K.S. Zee F. Graf J. “Monitoring the Air Quality in a Closed Chamber Using an Electronic Nose” Proc. 27 th Intl. Conf. on Environ. Systems, SAE 1997
- Ryan M.A. Homer M.L. Buehler M.G. Manatt K.S. Lau B. Karmon D. Jackson S. “Monitoring Space Shuttle Air for Selected Contaminants Using an Electronic Nose” Proc. 28 th Intl. Conf. on Environ. Systems, SAE 1998
- Ryan M.A. Homer M. L. Zhou H. Manatt K. S. Ryan V. S. Jackson S. “Operation of an Electronic Nose Aboard the Space Shuttle and Directions for Research for a Second Generation Device” Proc. 30 th Intl. Conf. on Environ. Systems, SAE 2000
- Ryan M.A. Zhou H. Buehler M.G. Manatt K.S. Mowrey V.S. Jackson S.P. Kisor A.K. Shevade A.V. Homer M.L. “Monitoring Space Shuttle Air Quality Using the JPL Electronic Nose” IEEE Sensors Journal 4 337 2004
- Ryan M.A. Shevade A.V. Zhou H. Homer M.L. “Polymer-Carbon-Composite Sensors for an Electronic Nose Air Quality Monitor” MRS Bulletin 29 714 2004
- Spacecraft Maximum Allowable Concentrations for Selected Airborne Contaminants 1 & 2 National Academy Press Washington DC 1994
- Ryan M. A. Homer M. L. Zhou H. Manatt K. Manfreda A. “Toward A Second Generation Electronic Nose at JPL: Sensing Film Optimization Studies” Proc. 31st Int'l. Conf. Environ. Systems, SAE, 2308 2001
- McNerney J.J. Busek P.R. Hanson R.C. “Mercury detection by means of thin gold films” Science 178 611 1972
- Shevade A.V. Ryan M.A. Homer M.L. Manfreda A.M. Zhou H. Manatt K.S. “Molecular Modeling of Polymer Composite-Analyte Interactions in Electronic Nose Sensors” Sens. & Act. B 93 84 2003
- Shevade A.V. Ryan M.A. Homer M.L. Manfreda A.M. Zhou H. Manatt K. “Correlating Polymer-Carbon Composite Sensor Response with Molecular Descriptors” J. Electrochem. Soc. 153 H209 2006
- Blanco M. Shevade A.V. Ryan M.A. Homer M. L. Goddard W. A. “Elemental Mercury Interactions with Organic Compounds: A DFT Study” J. Phys. Chem. B (in preparation)
- Jaguar, version 6.5 Schrodinger, LLC New York, NY 2005
- Becke A. D. “Density-Functional Thermochemistry 3. The Role Of Exact Exchange” J. Chem. Phys. 98 5648 1993
- Lee C. Yang W. Parr R.G. “Development of the Colle-Salvetti Correlation-Energy Formula into a Functional of the Electron-Density” Phys. Rev. B 37 785 1998
- Xin X. Goddard W. A. III “The X3LYP extended density functional for accurate descriptions of nonbond interactions, spin states, and thermochemical properties;” Proc. Nat. Acad. Sci. 101 2673 2004
- Shevade A.V. Blanco M. Ryan M.A. Homer M. L. Goddard W. A. “Identifying Chemical Functionalities in Polymers to Detect Sulfur Dioxide (SO2) using Quantum Mechanics” J. Phys. Chem. B (in preparation)
- Bristow Q. “An evaluation of the quartz crystal microbalance as a mercury vapor sensor for soil gases” J. Geochem. Expt. 1 55 1972
- Mazzolai B. Mattoli V. Raffa V. Tripoli G. Accoto D. Menciassi A. Dario P. “A microfabricated physical sensor of atmospheric mercury monitoring” Sens. & Act. A 113 282 2004
- Thundat T. Wachter E.A. Sharp S.L. Warmack R.J. “Detection of Hg Vapor Using Resonating Microcantilevers” App. Phys. Lett. 66 1695 1995
- Caron J.J. Haskell R.B. Benoit P. Vetelino J.F. “Surface Acoustic Wave Mercury Vapor Sensor” IEEE Trans. Ultrasonics Ferroelectrics and Freq. Control 45 1393 1998
- Britton C.L. Jones R.L. Oden P.I. Hu Z. Warmack R.J. Smith S.F. Bryan W.L. Rochelle J.M. “Multiple-Input Microcantilever Sensors” Ultramicroscopy 82 17 2000
- Rogers B. Manning L. Jones M. Sulchek T. Murray K. Beneschott B. Adams J.D. Hu Z. Thundat T. Cavazos H. Minne S.C. “Mercury Vapor Detection With a Self-Sensing, Resonating Piezoelectric Cantilever” Rev. Sci. Inst. 74 4899 2003
- Fertonani F.L. Milare E. Benedetti A.V. Ionashiro M. “Solid State Reactions of Mercury with Pure Noble Metals, Part 2” J. Thermal Anal. and Cal. 67 403 2002
- Milare E. Fertonani F.L. Benedetti A.V. Ionashiro M. “Contribution to the Study of the Solid-State Reaction of Mercury With Pure Rhodium” J. Thermal Anal. and Cal. 59 617 2000
- Fertonani F.L. Benedetti A.V. Ionashiro M. “Contribution to the Study of the Reaction of Mercury With Platinum and a Platinum-Iridium Alloy” Thermochim. Acta 265 151 1995
- Ruys D. P. Andrade J. F. Guimaraes O.M. “Hg Detection in Air Using a Coated Piezoelectric Sensor” Anal. Chim. Acta 404 95 2000
- Severin E.J. Lewis N.S. “Relationship among resonant frequency changes on a coated quartz crystal microbalance, thickness change, and resistance responses of polymer-carbon black composite chemiresistors;” Anal. Chem. 72 2008 2000