198th Meeting - Phoenix, Arizona

October 22-27, 2000

PROGRAM INFORMATION

T1 - Acoustic Wave-Based Sensors

Sensor Division

Wednesday, October 25, 2000

Tucson 43

Fundamentals, Experimental Modeling and Design

Co-Chairs: S.J. Martin and D. Johannsmann

TimeAbs#TitleView
10:001060 Theoretical Investigation of Bleustein-Gulyaev Waves in Potassium Niobate for Liquid Sensing Applications - C. Zhang (University of Maine), J.J. Caron, B. Marquis (Sensor Research & Development Corp.), and J.F. Vetelino (University of Maine) PDF
10:201061 Mode Imaging and Finite Element Modeling of Flexural Plate Wave Resonators - W.K. Schubert and D.R. Adkins (Sandia National Laboratories) PDF
10:401062 Volume Factors in Modeling the Modulus Contribution to Polymer-Coated Surface Acoustic Wave Vapor Sensor Responses - J.W. Grate (Pacific Northwest National Laboratory) and E.T. Zellers (University of Michigan) PDF
11:001063 The Acoustic Load Concept and its Application - R. Lucklum and P. Hauptmann (Otto-von-Guericke-University Magdeburg) PDF
11:301064 A New Approach to Fitting of Crystal Impedance Data for Viscoelastic Films - R. Hillman, A. Jackson (University of Leicester), S.J. Martin, and R.W. Cernosek (Sandia National Laboratories) PDF

Biosensing

Co-Chairs: A.R. Hillman and E. Gizeli

TimeAbs#TitleView
2:001065 Increasing Sensitivity of STW Based Sensors by Vacuum-Deposited Wave Guiding Layers - N. Barie, U. Stahl, M. Bruns, and M. Rapp (Research Center Karlsruhe) PDF
2:201066 Design of LiTaO3 Love-Wave Sensors for Chemical and Biological Detection in Liquids - F. Bender, R. Cernosek, S. Brozik (Sandia National Laboratories), and F. Josse (Marquette University) PDF
2:401067 Simultaneous Determination of Optical and Acoustic Thickness of Protein Laters Using Surface Plasmon Resonance Spectroscopy and Quartz Crystal Microweighing - A. Laschitsch and D. Johannsmann (Max-Planck-Institute for Polymer Research) PDF
3:001068 Analysis of a Sol-Gel Biochemical Reaction with a Generalized Acoustic Load Including Slip - R. Lucklum, S. Sakti, P. Hauptmann (Otto-von-Guericke-University Magdeburg), and G. McHale (Nottingham Trent University) PDF
3:201069 Adhesion and Cohesion of Mefp-1 (Mytilus Edulis Foot Protein 1) Characterized by a Thickness Shear Mode Acoustic Device - R. Garrell and J.-Y. Yoon (University of California, Los Angeles) PDF
3:50 Twenty-Minute Intermission
4:101070 Optimization of SH-SAW Liquid Sensor Platforms for (Bio-)Chemical Detection Using Polymer Guiding Layers - K. Zinszer, R. Zhou, F. Josse (Marquette University), F. Bender, and R. Cernosek (Sandia National Laboratories) PDF
4:301071 Thickness Shear Mode Quartz Resonators Used For Biosensing - C. Bailey, B. Chin (Auburn Univeristy), R. Cernosek (Sandia National Laboratories), B. Fiebor (Auburn Univeristy), V. Vodyanoy, and J. Barbaree (Auburn University) PDF
4:501072 Study of Membrane Interactions Using the Acoustic Wave-Guide Device - E. Gizeli, E. Ralph, and K. Melzak (University of Cambridge) PDF
5:101073 Measurement of Urine Sample Dilution Using TSM Resonators - H. Bandey, R. Cernosek, S. Brozik (Sandia National Laboratories), and L. Cole (University of New Mexico) PDF
5:301074 Demonstration of TSM Sensor for Food Pathogen Detection - V. Vodyanoy, J. Barbaree, C. Neely, S. Pathirana, and B. Chin (Auburn University) PDF

Thursday, October 26, 2000

Gas Sensing

Co-Chairs: E.T. Zellers and M. Rapp

TimeAbs#TitleView
8:001075 Quartz Microbalance Microcalorimetry: Fundamentals and Applications to Gas Sensing - A. Smith, H. Shirazi, D. Schneider, A. Ayrapetova, and B. Jacob (Drexel University) PDF
8:301076 Development of a Portable Chemical Vapor Detection System Using SAW Sensor Arrays - R. Cernosek, G. Yelton, A. Staton, G. Osbourn, J. Bartholomew, R. Martinez (Sandia National Laboratories), and D. Zatko (Air Products and Chemicals, Inc.) PDF
8:501077 Training Beyond Single Analytes for Chemical Vapor Sensor Arrays - G. Yelton, R. Cernosek, A. Staton (Sandia National Laboratories), and D. Zatko (Air Products & Chemicals, Inc.) PDF
9:101078 Optimizing Multi-Sensor Array Instrument Field Performance - D. Zatko (Air Products & Chemicals, Inc), R. Cernosek, G. Yelton, and A. Staton (Sandia National Laboratories) PDF
9:30 Twenty-Minute Intermission

Liquid/Physical Sensing

Co-Chairs: R. Lucklum and R.W. Cernosek

TimeAbs#TitleView
9:501079 Measurements of Interfacial Friction Using Quartz Crystal Resonators - A. Laschitsch, S. Berg, D. Johannsmann (Max-Planck-Institute for Polymer Research), G. Tyndall (IBM Almaden Research Center), and L. Bailey (Stanford University) PDF
10:201080 Novel Bulk Acoustic Wave Sensors for Probing Liquid Electrical Property Changes - C. Zhang (University of Maine), R.B. Haskell, T. Grillo, J. Seitz (Sensor Research & Development Corp.), J.F. Vetelino (University of Maine), and F.G. Grillo (Sensor Research & Development Corp.) PDF
10:401081 GaAs Flexural Plate Wave Devices for Liquid Sensor Applications - S. Hietala, S. Casalnuovo, R. Kottenstette, C. Colburn, J. Reno, and D. Tseng (Sandia National Laboratories) PDF
11:001082 Bulk Acoustic Wave Modes in Quartz for Sensing Measurand-Induced Mechanical and Electrical Property Changes - R.F. Schmitt, J.W. Allen (Sensor Research & Development Corp.), J.F. Vetelino, J. Parks, and C. Zhang (University of Maine) PDF
11:201083 Use of a Quartz Crystal Microbalance for On-Line Measurement of Fouling in Petrochemical Applications - F. Cooper and P. Kraus (Nalco/Exxon Energy Chemicals, L.P.) PDF
11:401084 Use of a Quartz Crystal Microbalance for Measuring Fouling on Heat Transfer Surfaces - P. Kraus, F. Cooper (Nalco/Exxon Energy Chemicals), and J. Spates (Ktech Corp.) PDF

Electrochemical Applications

Co-Chairs: C. Gabrielli and K. Kanazawa

TimeAbs#TitleView
2:001085 EQCM Study of the Influence of Counter Ion Identity on the Redox Switching Characteristics of Poly(vinylferrocene) Films - I. Jureviciute, S. Bruckenstein (University at Buffalo), and A.R. Hillman (University of Leicester) PDF
2:201086 Electrochemical Deposition of Polyvinylcarbazole(PVK) Monitored Using the Phase Locked QCM - S. Inaoka, D. Roitman (Agilent Technologies), R. Advincula (University of Alabama, Birmingham), K. Kanazawa (Stanford University), and C. Hildebrand (Maxtek, Inc) PDF
2:401087 Combined EQCM and Probe Beam Deflection Study of Competitive Anion and Cation Transfers at Polypyrrole Films - M.J. Henderson, H.M. French, A.R. Hillman (University of Leicester), and E. Vieil (CEA-Grenoble) PDF
3:001088 EQCMB Investigations at Mechanically Lossy Conducting Polymer Films - A. Bund, M. Wolter, and W. Plieth (Dresden University of Technology) PDF
3:20 Twenty-Minute Intermission
3:401089 Gravimetric and Viscoelastic Responses of Poly(3-methylthiophene) Films - M. Skompska (Warsaw University), A. Jackson, and A.R. Hillman (Leicester University) PDF
4:001090 Looking at the Electrical Double Layer with the EQCM - V. Tsionsky, E. Gileadi, and G. Zilberman (Tel-Aviv University) PDF
4:201091 Electrochemical Quartz Crystal Microbalance (EQCM) Study of Aluminum Deposition in Ambient Temperature Molten Salts/Benzene Mixtures - J.-J. Lee, Y. Mo, D.A. Scherson, B. Miller (Case Western Reserve University), and K.A. Wheeler (Delaware State University) PDF
4:501092 Influence of Stress in Metallic Films on the Mass Response of EQCM - H. Ehahoun, C. Gabrielli, P.P. Grand, A. Lasia, and H. Perrot (Universite Paris VI) PDF