Expanding the Analyte Set of the JPL Electronic Nose to Include Inorganic Species

Authors

• M. A. Ryan - 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
• K. Manatt - Jet Propulsion Laboratory, California Institute of Technology
• A. Manfreda - Jet Propulsion Laboratory, California Institute of Technology
• A. Kisor - Jet Propulsion Laboratory, California Institute of Technology
• A. V. Shevade - Jet Propulsion Laboratory, California Institute of Technology
• S. P. S. Yen - Jet Propulsion Laboratory, California Institute of Technology

Topic

• Inorganic chemicals
• Composite materials
• Polymers
• Hydrazines
• Sensors and actuators

Citation

Also In

References

1. 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
2. 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
3. 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,” 30th ICES Toulouse, FRANCE 2000
4. 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
5. Ryan, M.A. Shevade, A.V. Zhou H. Homer, M.L. “Polymer-Carbon-Composite Sensors for an Electronic Nose Air Quality Monitor,” 29 714 2004
6. Freund M.S. Lewis, N.S. “A Chemically Diverse Conducting Polymer-Based Electronic Nose,” Proc. Nat. Acad. Sci. USA 92 2652 1995
7. 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
8. 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
9. 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. Chem. Inf. Modeling
10. Livingstone, D. Data Analysis for Chemists- Applications to QSAR and Chemical Product Design Oxford University Press Inc. New York 1995
11. Shevade, A.V. Ryan, M.A. Homer, M.L. Manfreda, A.M Zhou H. Manatt, K. “A Quantitative Structure-Activity Relationship Study to describe Electronic Nose sensor response,” Electrochem. Soc., 206 th Mtg, Ext. Abs 2004
12. Cerius 2 v 4.2 Accelrys Inc. San Diego CA, USA
13. Mayo, S.L. Olafson, B.D. Goddard, W.A. “Dreiding - A Generic Force-Field for Molecular Simulations,” J. Phys. Chem. 94 8897 1990
14. Steele W.A. The Interaction of Gases with Solids Surfaces Clarendon Press Oxford 1974
15. Rappe, A.K. Casewit, C.J. Colwell, K.S. Goddard W.A. Skiff, W.M. “Uff, A Full Periodic-Table Force-Field for Molecular Mechanics and Molecular-Dynamics Simulations,” J. Am. Chem. Soc., 114 10024 1992
16. Wang, L. Bu, J.L. Kumar R.V. Hong, Y.R. “A Potentiometric SO 2 Gas Sensor with Solid Reference Electrode,” Key Eng. Mat. 280 323 2005
17. Yan, Y. Shimizu, Y. Miura, N. Yamazoe, N. “Solid-State Sensor for SO x Based on Stabilized Zirconia and Metal Sulfate,” Chem. Lett. 4 635 1992
18. Holc, J. “Thick film chemical sensors,” J. Microelec. Elec. Comp. & Mat. 25 205 1995
19. Dunn, J.P. Stenger H.G. Wachs, I.E. “Oxidation of SO 2 over supported metal oxide catalysts,” J. Catalysis 181 233 1999
20. Tomchenko, A.A. Harmer, G.P. Marquis, B.T. Allen, J.W. “Semiconducting Metal Oxide Sensor Array for the Selective Detection of Combustion Gases,” Sens. & Act. B 93 126 2003
21. Matsuguchi, M. Tamai, K. Sakai, Y. “SO 2 Gas Sensors Using Polymers With Different Amino Groups,” Sens. & Act. B 77 363 2001
22. Chiou, C.Y. Chou, T.C. “Amperometric SO 2 Gas Sensors Based on Solid Polymer Electrolytes,” Sens. & Act. B, 87 1 2002
23. Knake, R. Guchardi, R. Hauser, P.C. “Quantitative Analysis of Gas Mixtures by Voltammetric Sensing,” Anal. Chim. Acta, 475 17 2003
24. Horn, M. Pichlmaier, J. Trankler, H.R. Physical “Description of the Principle of an SO 2 Sensor” Sens. & Act. A 25 400 1995
25. Ranucci, E. Ferruti, P. Ferrari, V. Marioli D. Taroni, A. “Multifunctional Polymers for Sensing Applications,” Poly. Adv. Tech 7 529 535 1996
26. Ranucci, E. Ferruti, P. Ferrari, V. Marioli, D. Taroni, A. “High Swelling Gels for Sensing Applications,” Macromol. Symp. 109 89 1996
27. Leidl, A. Hartinger, R. Roth, M. Endres, H.E. “A New SO 2 Sensor System With SAW and IDC Elements,” Sens. & Act. B 34 339 1996
28. Matsuguchi, M. Sakurada, K. Sakai, Y. “Effect of Crosslinked Structure on SO 2 Gas Sorption Properties in Amino-Functional Copolymers,” J. App. Polymer Sci. 88 2982 2003
29. Ferrari, V. Marioli, D. Taroni, A. Ranucci, E. “Multisensor Array of Mass Microbalances for Chemical Detection Based on Resonant Piezo-Layers of Screen-Printed PZT,” Sens. & Act. B 68 81 2000
30. Qin, S.J. et al. “The Sensitivity to SO 2 of the SAW Gas Sensor With Triethanolamine Modified With Boric Acid,” Sens. & Act. B 66 240 2000
31. Smyntyna, V.A. Golovanov, V. Kashulis, S. Mattogno, G. Viticoli, S. “Dependence of Sensitivity and Reproducibility of CdS Oxygen Sensors,” Sens. & Act. B 19 460 1994
32. Lee, Y.J. Kim, H.B. Roh, Y.R. Cho, H.M. “Development of a SAW Gas Sensor for Monitoring SO 2 Gas,” Sens. & Act. A 64 173 1998
33. McNerney, J.J. Busek P.R. Hanson, R.C. “Mercury detection by means of thin gold films,” Science 178 611 1972
34. Bristow, Q. “An evaluation of the quartz crystal microbalance as a mercury vapor sensor for soil gases,” J. Geochem. Expt., 1 55 1972
35. Mazzolai, B. Mattoli, V. Raffa, V. Tripoli, G. Accoto, D. Menciassi A. Dario, P. “A microfabricated physical sensors of atmospheric mercury monitoring,” Sens. & Act. A 113 282 2004
36. Thundat, T. Wachter, E. A. Sharp, S. L. Warmack, R. J. “Detection of Mercury-Vapor Using Resonating Microcantilevers,” App. Phys. Lett. 66 1695 1995
37. 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
38. 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 Microcantilevers Sensors,” Ultramicroscopy 82 17 2000
39. 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
40. 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
41. 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
42. 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
43. Guminski, C. “Contribution of Electrochemistry to the Knowledge of Sturcture and Properties of Amalgams,” Polish J. Chem. 78 1733 2004
44. Mirsky, V. M. “New Electroanalytical Applications of Self-Assembled Monolayers,” Trends Anal. Chem. 21 439 2002
45. Ruys, D. P. Andrade J. F. Guimaraes, O.M. “Hg Detection in Air Using a Coated Piezoelectric Sensor,” Anal. Chim. Acta 404 95 2000
46. Weiller, B.H. Fuqua P.D. Osborn, J.V. “Fabrication, Characterization and Thermal Failure Analysis of a Micro Hot Plate Chemical Sensor Substrate,” J. Electrochem. Soc. 151 H59 2004
47. Yang, H. Lu, T. Xue, K. Sun, S. Lu G. Chen, S. “Electrocatalytic Oxidation of Methanol on Polypyrrole Film Modified With Pt Microparticles,” J. Electrochem. Soc., 144 2302 1997
48. Hepel, M. “The Electrocatalytic Oxidation of Methanol at Finely Dispersed Platinum Nanoparticles in Polypyrrole Films,” J. Electrochem. Soc., 145 124 1998
49. Deki, S. Nishikawa, H. Mizuhata, M. “Fabrication of Pt Nanoparticles-Polypyrrole Composite for Electrocatalyst,” Electrochem. 72 415 417 2004
50. Virji, S. Huang, J. Kaner R.B. Weiller, B.H. “Polyaniline Nanofiber Gas Sensors,” Nanoletters 4 491 2004
51. Nanto H. Stetter J.R. “Introduction to Chemosensors” A Handbook of Machine Olfaction Pearce Schiffman Nagle Gardner Wiley-VCH Weinheim 2003
52. George M.A. Glaunsinger, W.S. “Electrical and Structural Properties of Gold Films and Mercury Covered Gold Films,” Thin Solid Films 245 215 1994

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