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"Acoustic Wave Microsensors (Part 1),"
J. W. Grate, S. J. Martin and R. M. White, Anal. Chem. 65, 940 A -948 A (1993).
"Acoustic Wave Microsensors (Part 2),"
J. W. Grate, S. J. Martin and R. M. White, Anal. Chem. 65, 987 A-996 A (1993).
"SAW Sensors for the Room-Temperature Measurement of CO2 and Relative Humidity,"
A. E. Hoyt, A. J. Ricco, J. W. Bartholomew, and G. C. Osbourn, Anal. Chem., 70, xxxx (1998).
"Single-Monolayer In-Situ Modulus Measurements using a SAW Device: photocrosslinking of a Diacetylenic Thiol-Based Monolayer,"
A. J. Ricco, A. W. Staton, R. M. Crooks, and T. Kim, Faraday Discuss., 107, xxxx (1998).
"Interactions between Self-Assembled Monolayers and an Organophosphonate: Detailed Study using Surface Acoustic Wave-Based Mass Analysis, Polarization- Modulation FTIR Spectroscopy, and Ellipsometry,"
R. M. Crooks, H. C. Yang, L. J. McEllistrem, R. C. Thomas, and A. J. Ricco, Faraday Discuss., 107, xxxx (1998).
"SAW Chemical Sensor Arrays: New Chemically Sensitive Interfaces Combined with Novel Cluster Analysis to Detect Volatile Organic Compounds and Mixtures,"
A. J. Ricco, R. M. Crooks, and Gordon C. Osbourn, Accts. Chem. Res., 31, xxxx (1998).
"VERI Pattern Recognition Applied to Chemical Microsensor Array Selection and Chemical Analysis,"
G. C. Osbourn, J. W. Bartholomew, A. J. Ricco, and G. C. Frye, Accts. Chem. Res., 31, xxxx (1998).
"New Organic Materials Suitable for Use in Chemical Sensor Arrays,"
R. M. Crooks and A. J. Ricco, Accts. Chem. Res., 31, xxxx (1998).
"Molecular Interactions Between Organized, Surface-Confined Monolayers and Vapor-phase Probe Molecules. 9. Structure/Reactivity Relationship Between Three Surface-Confined Isomers of Mercaptobenzoic Acid and Vapor-phase Decylamine,"
M. Wells, D. L. Dermody, H. C. Yang, T. Kim, R. M. Crooks, and A. J. Ricco, Langmuir, 12, 1989 (1996).
"Molecular Interactions Between Organized, Surface-Confined Monolayers and Vapor-Phase Probe Molecules. 8. Reactions Between Acid-Terminated Self-Assembled Monolayers and Vapor-Phase Bases,"
H. C. Yang, D. L. Dermody, C. Xu, A. J. Ricco, and R. M. Crooks, Langmuir, 12, 726 (1996).
"Chemically Sensitive Surface Acoustic Wave Devices Employing A Self-Assembled Composite Monolayer Film: Molecular Specificity and Effects Due to SAM Adsorption Time and Au Surface Morphology,"
R. C. Thomas, H. C. Yang, C. R. DiRubio, A. J. Ricco, and R. M. Crooks, Langmuir, 12, 2239 (1996).
"Speciation of Linear and Branched Hydrocarbons by a Fluorinated Polyimide Film Based SAW Sensor,"
A. E. Hoyt, A. J. Ricco, H. C. Yang, and R. M. Crooks, J. Am. Chem. Soc., 117, 8672 (1995).
"Dynamics and Response of Polymer-Coated Surface Acoustic Wave Devices: Effect of Viscoelastic Properties and Film Resonance,"
S. J. Martin, G. C Frye and S. D. Senturia, Anal. Chem. 66, 2201 (1994).
"Chemically Sensitive Interfaces on SAW Devices,"
A. J. Ricco, C. Xu, R. M. Crooks, and R. E. Allred, in Interfacial Design and Chemical Sensing, ACS Symposium Series No. 561, American Chemical Society: Washington, DC (1994), Ch. 0264-279.
"Molecular Interactions Between Organized, Surface-Confined Monolayers and Vapor-Phase Probe Molecules. 6. In-situ FTIR-External Reflectance Spectroscopy of Monolayer Adsorption and Reaction Chemistry,"
C. Xu, L. Sun, L. J. Kepley, R. M. Crooks, and A. J. Ricco, Anal. Chem., 65, 2102 (1993).
"Molecular Interactions Between Organized, Surface-Confined Monolayers and Vapor-Phase Probe Molecules. 5. Acid-Base Interactions,"
L. Sun, R. M. Crooks, and A. J. Ricco, Langmuir, 9, 1775 (1993).
"Multiple-Frequency SAW Devices for Chemical Sensing & Materials Characterization,"
A. J. Ricco and S. J. Martin, Sensors & Actuators, B10, 123 (1993).
"A Selective SAW-Based Organophosphonate Chemical Sensor Employing a Self Assembled, Composite Monolayer: A New Paradigm for Sensor Design,"
L. J. Kepley, R. M. Crooks, and A. J. Ricco, Anal. Chem., 64, 3191 (1992).
"Thin Metal Film Characterization & Chemical Sensors: Monitoring Electronic Conductivity, Mass Loading, and Mechanical Properties with SAW Devices,"
A. J. Ricco and S. J. Martin, Thin Solid Films, 206, 94 (1991). 35. Real-Time Analysis of Chemical Reactions Occurring at a Surface-Confined Organic Monolayer, L. Sun, R. C. Thomas, R. M. Crooks, and A. J. Ricco, J. Am. Chem. Soc., 113, 8550 (1991).
"Real-Time Measurements of the Gas-phase Adsorption of n-Alkanethiol Mono- and Multilayers on Gold,"
R. C. Thomas, L. Sun, R. M. Crooks, and A. J. Ricco, Langmuir, 7, 620 (1991).
"Chemical Microsensors,"
R. C. Hughes, A. J. Ricco, M. A. Butler, and S. J. Martin, Science, 254, 74 (1991).
"Isothermal Measurements and Thermal Desorption of Organic Vapors Using SAW Devices,"
S. J. Martin, A. J. Ricco, D. S. Ginley, and T. E. Zipperian, IEEE Trans. on UFFC, UFFC-34, 142 (1987).
"Surface Acoustic Wave Gas Sensor Based on Film Conductivity Changes,"
A. J. Ricco, S. J. Martin, and T. E. Zipperian, Sensors and Actuators, 8, 319 (1985).
"Acoustic Wave Sensors: Theory, Design, and Physico-Chemical Applications,"
D. S. Ballantine, R. M. White, S. J. Martin, A. J. Ricco, G. C. Frye, E. T. Zellers, and H. Wohltjen, Academic Press: San Diego (1997).
"Acoustic Wave-Based Chemical Sensors (Invited),"
A. J. Ricco, in The Industrial Electronics Handbook, J. D. Irwin, ed., CRC Press: Boca Raton, FL (1997), Ch. 117.2, pp. 1519-1525.
"Sensors,"
R. C. Hughes, A. J. Ricco, M. A. Butler, and S. J. Martin, Kirk-Othmer Encyclopedia of Chemical Technology, 4th Edn., John Wiley and Sons: New York (1997).
"SAW Chemical Sensors (Invited),"
A. J. Ricco, The Electrochemical Society Interface, 3, 38 (1994).
"Quartz Crystal Devices (Acoustic Wave-Based Sensors, Invited),"
A. J. Ricco and S. J. Martin, 1995 Yearbook of Science and Technology, McGraw-Hill: New York (1994), pp. 349-52.
"Surface Acoustic Wave Sensing of VOCs in Harsh Chemical Environments,"
K. B. Pfeiffer, S. J. Martin, and A. J. Ricco, Sandia Report No. 93-0070 (1993).
"Effective Utilization of Acoustic Wave Sensor Responses: Simultaneous Measurement of Velocity and Attenuation,"
S. J. Martin and A. J. Ricco, Proc. 1989 IEEE Ultrasonics Symp., 621 (1989). |
