This content is not included in
your SAE MOBILUS subscription, or you are not logged in.
Expanding the Capabilities of the JPL Electronic Nose for an International Space Station Technology Demonstration
Technical Paper
2006-01-2179
ISSN: 0148-7191, e-ISSN: 2688-3627
Annotation ability available
Sector:
Language:
English
Abstract
An array-based sensing system based on polymer-carbon composite conductometric sensors is under development at JPL for use as an environmental monitor in the International Space Station. Sulfur dioxide has been added to the analyte set for this phase of development. Using molecular modeling techniques, the interaction energy between SO2 and polymer functional groups has been calculated, and polymers selected as potential SO2 sensors. Experiment has validated the model and two selected polymers have been shown to be promising materials for SO2 detection.
Recommended Content
Authors
- M. A. Ryan - Jet Propulsion Laboratory, California Institute of Technology
- A. V. Shevade - Jet Propulsion Laboratory, California Institute of Technology
- C. J. Taylor - Jet Propulsion Laboratory, California Institute of Technology
- M. L. Homer - Jet Propulsion Laboratory, California Institute of Technology
- A. D. Jewell - Jet Propulsion Laboratory, California Institute of Technology
- A. Kisor - Jet Propulsion Laboratory, California Institute of Technology
- K. S. Manatt - Jet Propulsion Laboratory, California Institute of Technology
- S. P. S. Yen - 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
Topic
Citation
Ryan, M., Shevade, A., Taylor, C., Homer, M. et al., "Expanding the Capabilities of the JPL Electronic Nose for an International Space Station Technology Demonstration," SAE Technical Paper 2006-01-2179, 2006, https://doi.org/10.4271/2006-01-2179.Also In
References
- 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,” 27th ICES Nevada, USA 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,” 28th ICES Massachusetts, USA 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,” 30 th ICES Toulouse, FRANCE 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
- Freund M.S. Lewis, N.S. “A Chemically Diverse Conducting Polymer-Based Electronic Nose,” Proc. Nat. Acad. Sci. USA 92 2652 1995
- Lonergan, M.C. Severin, E.J. Doleman, B.J. Beaber, S.A. Grubb R.H. Lewis, N.S. “Array-Based Vapor Sensing Using Chemically Sensitive, Carbon Black-Polymer Resistors,” Chem. Mat. 8 2298 1996
- 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
- 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 2880 2005
- Hohenberg P. Kohn, W. “Inhomogeneous Electron Gas” Phys. Rev. 136 B864 1964
- 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 1988
- Matsuguchi, M. Tamai K. Sakai, Y. “SO 2 Gas Sensors Using Polymers with different amino Groups;” Sens. & Act. B 77 363 2001
- Diaf, A. Garcia J.L. Beckman, E. “Thermally Reversible Polymeric Sorbents for Acid Gases: CO 2 , SO 2 and NO x ” J. Appl. Polym. Sci. 53 857 1994