Co-Chairs: C. Bruckner-Lea and M. Egashira
Time | Abs# | Title |
---|---|---|
10:00 | 2489 | Higher Order Structure Control for Semiconductor Gas Sensors - N. Yamazoe (Kyushu University) |
10:40 | 2490 | Preparation of Macroporous Noble Metal Films by R.F. Magnetron Sputtering for Electrochemical Device Applications - T. Hyodo (Nagasaki University), J. Hertz, and H. Tuller (Massachusetts Institute of Technology) |
11:00 | 2491 | Gas Sensor Network for Air-Pollution Monitoring - W. Tsujita, A. Yoshino (Tokyo Institute of Technology), H. Ishida (Tokyo University of Agriculture and Technology), and T. Moriizumi (Tokyo Institute of Technology) |
11:20 | 2492 | Preparation of Macroporous SnO2 Thick Films and Their Application to Sensor Materials - T. Ishibashi, T. Hyodo, Y. Shimizu, and M. Egashira (Nagasaki University) |
11:40 | 2493 | Single Crystal SiC Microhotplate Conductometric Chemical Sensor Arrays - R. Mlcak, D. Doppalapudi, G. Whitfield, and H. Tuller (Boston MicroSystems, Inc.) |
Co-Chairs: R. Mukundan and N. Miura
Time | Abs# | Title |
---|---|---|
14:00 | 2494 | Continuous Measurement with a Chemical Sensor and a Semipermeable Hollow Fiber Using the Null Method - K. Otsuka (Tokyo Medical and Dental University), T. Sumino, M. Miyagi, T. Togawa (Waseda University), and K. Mitsubayashi (Tokyo Medical and Dental University) |
14:20 | 2495 | Sensitization of SnO2-based Thick Film Sensor for Ethylene Oxide Gas - M. Kugishima, K. Shimanoe, and N. Yamazoe (Kyushu University) |
14:40 | 2496 | Carbon Monoxide Sensors for Applcation in Polymer Electrolyte Membrane Fuel Cells - R. Mukundan, E. Brosha, M. Inbody, and F. Garzon (Los Alamos National Laboratory) |
15:00 | 2497 | Investigation of Counter Electrode Material for NASICON Based Potentiometric CO2 Sensor - Y. Miyachi, S. Kishi, K. Shimanoe, and N. Yamazoe (Kyushu University) |
15:20 | 2498 | Smart Carbon Dioxide Gas Sensor Based on Solid Electrolytes - T. Maekawa, K. Suzuki, H. Ishikawa (New Cosmos Electric Co., Ltd.), S. Tamura, N. Imanaka (Osaka University), and G.-Y. Adachi (College of Analytical Chemistry) |
15:40 | Twenty-Minute Intermission | |
16:00 | 2499 | Preparation of LixNd10-xSi6O27-x Sinters and its Application to Potentiometric CO2 Gas Sensor - M. Fujishima, Y. Itagaki, H. Aono, and Y. Sadaoka (Ehime University) |
16:20 | 2500 | Influence of SO_2 Gas on Output of Resistive Oxygen Sensor Using CeO2 or Ce0.8Zr0.2O2 - N. Izu, W. Shin, I. Matsubara, and N. Murayama (National Institute of Advanced Industrial Science and Technology (AIST)) |
16:40 | 2501 | Influence of Annealing Temperatures of NiO Sensing -Electrode on Sensing Characteristics of YSZ-based Mixed-potential-type NOx Sensor - E. Perumal and N. Miura (Kyushu University) |
17:00 | 2502 | Thin Film Mixed Potential NOx Sensor Development for Stationary Reciprocating Engine Applications - E. Brosha, R. Mukundan, R. Lujan, and F. Garzon (Los Alamos National Laboratory) |
17:20 | 2503 | Phase evolution, microstructure, and gas-sensing properties of the Fe_2(MoO4)3 system - U. Kersen (Helsinki University of Technology) and R. Keiski (University of Oulu) |
Co-Chairs: M. Feldhaus and F. Mizutani
Co-Chairs: F. Mizutani and C. Bruckner-Lea
Time | Abs# | Title |
---|---|---|
14:00 | 2510 | Precise Enzyme Immobilization at the Bottom of a Micro Flow Channel and its Application to a Sensing System - M. Hashimoto, S. Upadhyay, and H. Suzuki (University of Tsukuba) |
14:20 | 2511 | Rapid, Sensitive Detection of Botulinum Toxin Using a Flexible Microfluidics Platform - C. Bruckner-Lea, M. Warner, M. Feldhaus, B. Dockendorff, N. Anheier (Pacific Northwest National Laboratry), J. Marks (University of California, San Francisco), and J. Grate (Pacific Northwest National Laboratry) |
14:40 | 2512 | Pharmacological Active Cell Sensor Array - H.D. Wanzenboeck, C. Almeder, K. Dominizi, P. Hagl, E. Bertagnolli (Vienna University of Technology), E. Bogner, M. Wirth, and F. Gabor (University Vienna) |
15:00 | 2513 | Electric Field Effect Detection of Biomolecular Interactions - P. Estrela, A. Stewart, and P. Migliorato (University of Cambridge) |
15:20 | 2514 | Surface Electrochemical Measurement of Acetylcholinesterase Activity: Application to Monitoring a peptide Hormone with Enzyme Immunoassay System - H. Matsuura (Department of Chemistry, University of Tsukuba), Y. Sato, O. Niwa (Tsukuba Center, National Institute of Advanced Industrial Science and Techonogy), and F. Mizutani (Hokkaido Center, National Institute of Advanced Industrial Science and Techonogy) |
15:40 | Twenty-Minute Intermission | |
16:00 | 2515 | Integrated sample preparation and analysis of biological agents using the hand portable capillary electrophoresis instrument, microChemlab. - J.A.A. West (Sandia National Laboratories) |
16:20 | 2516 | Effect of Electrode Modification by Ionic Polymer Adsorption on Electrochemiluminescence of Luminol - M. Kamada and Y. Yoshimi (Shibaura Institute of Technology) |
16:40 | 2517 | Effects of Chemical Environment on Organic Electronics - H. Chen, M. Josowicz, and J. Janata (Georgia Institute of Technology) |
17:00 | 2518 | Critical Micelle Concentration (CMC) Sensor Based on Porous Sol-Gel Doped Cladding U-Shaped Optical Fiber - M. Ogita, C. Singh, H. Isobe, and T. Fujinami (Shizuoka University) |
17:20 | 2519 | Development of Molecularly Imprinted Polymer Films for L-Proline Detection - M. Homer, S.-P. Yen, M. Ryan, and A. Ksendzov (California Inst. of Tech.) |
17:40 | 2520 | Acetic Acid Sensor Using Diamond-Like Carbon as Working Electrode for Disinfection and Sterilization Industry - C.-C. Chen and T.-C. Chou (unknown) |
Co-Chairs: P. Vanysek and G. Hunter
Time | Abs# | Title |
---|---|---|
o | 2521 | Selective Permeable Membrane Based on Two Dimensional Cross-linked Polysiloxane LB Films for Nitric Oxide Sensor - D. Kato (National Institute of Advanced Industrial Science and Technology), M. Kunitake (Faculty of Engineering, Kumamoto University), M. Nishizawa, T. Matsue (Graduated School of Engineering, Tohoku University), and F. Mizutani (National Institute of Advanced Industrial Science and Technology) |
o | 2522 | Electrochemical Response with Composition of Parallel Opposed Dual Electrode and Flow Rate in a Microchannel - T. Ito (Kanagawa Industrial Technology Research Institute), K. Maruyama (Keio University), O. Niwa (National Institute of Advanced Industrial Science and Technology), and K. Suzuki (Kanagawa Industrial Technology Research Institute) |
o | 2523 | A Needle Puncture System for Automatic Blood Sampling - H. Saito (Tokyo Medical and Dental University), M. Shibata (University of Tokyo), and K. Mitsubayashi (Tokyo Medical and Dental University) |
o | 2524 | Stick-type bioelectronic sniffer device for acetaldehyde vapor - M. Ogawa, K. Mitsubayashi (Department of Biomedical Devices and Instrumentation, Institute of Biomaterials and Bioengineering, Tokyo Medical and Dental University), H. Matsunaga, and G. Nishio (Graduate School of Engineering, Tokai University) |
o | 2525 | Development of the ammonia bio-sniffer with FMO3 - T. Okamoto (Tokai University), K. Mitsubayashi, H. Saito (Department of Biomedical Devices and Instrumentation, Institute of Biomaterials and Bioengineering), Y. Kaneko, Y. Hashimoto, and S. Nakura (Tokai University) |
o | 2526 | Development of a stick-type bioelectronic sniffer for device ethanol vapor - G. Nisiho (Tokai University), K. Mitsubayashi, M. Ogawa (Department of Biomedical Devices and Instrumentation, Institute of Biomaterials and Bioengineering), H. Matsunaga, and T. Minamide (Tokai University) |
o | 2527 | Electrochemical gas-sensor for methyl mercaptan vapor - T. Minamide (Tokai University), K. Mitsubayashi, H. Saito (Department of Biomedical Devices and Instrumentation, Institute of Biomaterials and Bioengineering), and G. Nishio (Tokai University) |
o | 2528 | A wearable oxygen sensor for rabbit conjunctiva - S. Iguchi (Tokai University), K. Mitsubayashi, M. Ogawa (Department of Biomedical Devices and Instrumentation, Institute of Biomaterials and Bioengineering), T. Saito (Tokyo Denki University), and T. Goto (Tokai University) |
o | 2529 | Electrochemical DNA sensors based on polymeric indicator: Use of poly(4-vinylpyridine) derivative bearing [Os(5,6-dmphen)2Cl]2+ (5,6-dmphen = 5,6-dimethyl-1,10-phenanthroline) - A. Liu (Energy Electronics Institute, National Institute of Advanced Industrial Science and Technology (AIST)) and J.-I. Anzai (Graduate School of Pharmaceutical Sciences, Tohoku University) |
o | 2530 | A gas-phase biosensor for lactate vapor - T. Goto (Tokai University), K. Mitsubayashi (Department of Biomedical Devices and Instrumentation, Institute of Biomaterials and Bioengineering), H. Amagai, S. Iguchi, T. Shinoda (Tokai University), and K. Otsuka (Department of Biomedical Devices and Instrumentation, Institute of Biomaterials and Bioengineering) |
o | 2531 | Position-Specific Incorporation of Highly Durable and Blue-Laser Excitable Fluorescent Amino Acid into Proteins for Fluorescence Sensing - H. Hamada, N. Kameshima, M. Taki (Okayama University), H. Shinohara (Toyama University), A. Szymanska (University of Gdansk), T. Hohsaka (School of Materials Science and Technology), and M. Sisido (Okayama University) |
o | 2532 | Simultaneous cell analysis by PT-mesh enzyme electrode and CLSM image - S. Nakakura (Tokai University), K. Mitsubayashi (Department of Biomedical Devices and Instrumentation, Institute of Biomaterials and Bioengineering), T. Kon, T. Okamoto (Tokai University), and K. Otsuka (Department of Biomedical Devices and Instrumentation, Institute of Biomaterials and Bioengineering) |
o | 2533 | Non-heating Room Temperature SnO2 Gas Sensors - Q. Yan and X. Liu (Mississippi State University) |
o | 2534 | Sensing Properties and Catalytic Decomposition to Chlorinated Hydrocarbons of Indium Oxide Based Gas Sensors - J. Fukunishi, J. Tamaki (Ritsumeikan University), T. Kawaguchi, and T. Udaka (Figaro Engineering Inc.) |
o | 2535 | Thin Film Chip Acetone Gas Sensor for the Application in Diabetic Diagnosis - M.-L. Yu and T.-C. Chou (National Cheng Kung University) |
o | 2536 | High Sensitivity Micro-NO2-Sensor Using WO3 Thick Film and Its Application to Environmental Monitoring - T. Takagi, A. Hayashi, J. Tamaki, and Y. Yamamoto (Ritsumeikan University) |
o | 2537 | Odor Sensor System for Early Fire Detection and Its Application to Utility Mobile Robot - Y. Takei, H. Nanto, T. Tashiro (Kanazawa Inst. of Technology), H. Kasahara (New Cosmos Electric Co., Ltd.), S. Iwasaki (Tmsuk Co., Ltd.), and T. Misawa (Kanazawa Inst. of Technology) |
o | 2538 | Electrochemical Responses of a Graphite Electrode Modified with Polyeugenol and Overoxidized Polypyrrole Composite Filmto Dopamine and Ascorbic Acid - K. Hirakawa, T. Imato (Kyushu University), S. Yamasaki, and H. Ohura (Kyushu Sangyo University) |
o | 2539 | Flow-injection Analysis of Zinc(II) Ions with an ALP-Column Based on an Apoenzyme Reactivation Method and Application of the Method to Regulation of the Column Activity - Y. Iida, M. Sekine, S. Nemoto, and I. Satoh (Kanagawa Institute of Technology) |
o | 2540 | Application of a Microfluidic Gas-Diffusion Unit to Flow-injection Analysis of L-lysine with an L-lysine Oxidase Column - Y. Iida, T. Sano, and I. Satoh (Kanagawa Institute of Technology) |
o | 2541 | Study on TiO_2 Photoexcitation Reaction Using Mosaic Disk Array from Ideally Order Anodic Porous Alumina - M. Harada (Tokyo Metropolitan University), F. Matsumoto (Kanagawa Academy of Science and Technology), K. Nishio, and H. Masuda (Tokyo Metropolitan University) |
o | 2542 | Periodic Change of Viscosity and Density in an Oscillating Chemical Reaction - H. Shirahama and M. Yoshimoto (Kagoshima University) |
o | 2543 | Effect of the Immersion Angle of a One-face Sealed Quartz Crystal Microbalance In Electrolytic Solution - S. Tokimura, M. Yoshimoto (Kagoshima University), S. Kurosawa (National Institute of Advanced Science and Technology), and M. Naito (Tokyo Woman's Christian University) |
o | 2544 | Development of the PH Sensor for Acidic Rain or Mist - N. Matsunaga (Kitakyushu Foundation for the Advancement of Industry, Science and Technology), A. Nogami, and T. Murata (The University of Kitakyushu) |
o | 2545 | Preparation and Characterization of Apatite-like Neodymium Silicates and its Application to Potentiometric O2 Gas Sensor - N. Takeda, Y. Itagaki, H. Aono, and Y. Sadaoka (Ehime University) |
o | 2546 | Reactivity of Solid Electrolyte and Auxiliary Phase on Pt, Li2CO3/Na2O-Al2O3-4SiO2//YSZ/Pt Electrochemical CO2 Gas Sensor - T. Okamoto, A. Kuramoto, Y. Shimamoto, H. Aono, and Y. Sadaoka (Ehime University) |
o | 2547 | Excited State Kinetics of Ru(bpy)2(PVP)102+ - L. Dennany and R. Forster (Dublin City University) |
o | 2548 | Tubular-type Carbon Nanofibers Used as Probing Materials for Solid-phase Extraction Device - C.-T. Hsieh, J.-M. Chen, Y.-H. Huang, R.-R. Kuo (MRL/ITRI), M.-R. Chao, and C.-W. Hu (Chung Shan Medical University) |
o | 2549 | Cathodic Electroluminescence of Ru (bpy) 32+ Chelate at Oxide-Coated Silicon Electrodes - Q. Jiang, J. Suomi, M. Hakansson, A.J. Niskanen, M. Kotiranta, and S. Kulmala (Helsinski University of Technology) |
Co-Chairs: G. Hunter and T. Thundat
Time | Abs# | Title |
---|---|---|
08:00 | 2550 | Microfluidic System for the Analysis of GOT and GPT Activities - N. Ohgami, S. Upadhyay (University of Tsukuba), H. Kusakabe (Yamasa Corporation), and H. Suzuki (University of Tsukuba) |
08:20 | 2551 | The Application of Various Crown Ethers Modified Electrodes As Poteniometric Detectors For Flow Injection Analyses of Catechol And Catecholamines - S. Lunsford (Wright State University) |
08:40 | 2552 | State-of-the-art Fuel Acidity Monitoring - J. Widera (Innovative Scientific Solutions Inc.) and J. Johnson (University of Dayton Research Institute) |
09:00 | 2553 | A Reference Electrode Based on a Microfluidic-Flowing Liquid Junction Through a Nanochannel Glass Array - F. Gao, T.-Y. Chen, S. Broadley, P. Payne (Broadley-James Corporation), and H. Silverman (N/A) |
09:20 | 2554 | Micromachined Amperometric Nitrate Sensor with an Anion Permeable Membrane - D. Kim, I. Goldberg, and J. Judy (University of California, Los Angeles) |
09:40 | Twenty-Minute Intermission | |
10:00 | 2555 | Amperometric Sensor for Hydrogen-Phosphate Ion with Perovskite-Type Oxide Thin-Film - Y. Shimizu, S. Takase, N. Higuchi, and M. Kawasaki (Kyushu Institute of Technology) |
10:20 | 2556 | Signatures for Newtonian Fluids on Smooth QCM's - J. Stalgren, C. Frank, K. Kanazawa (Stanford University), and S. Martin (Sandia National Laboratory) |
10:40 | 2557 | Detection of Copper with Potentiostatically Controlled Microcantilever Sensors - G. Brown, F. Tian, J. Pei, H. David, and T. Thundat (Oak Ridge National Laboratory) |
11:00 | 2558 | Rotating Sample System: A Simple Equivalent of a Rotating Disk Electrode for Detection of Trace Pb in Microliter Samples - G. Shetty, M. Gratzl, and M. Gratzl (Case Western Reserve University) |
11:20 | 2559 | Aptazyme-coated Microcantilevers for the Detection of Lead Ions - K. Hansen, K. Stevenson, and T. Thundat (Oak Ridge National Laboratory) |
11:40 | 2560 | Surface Plasmon Resonance Based Immunosensor for Trace Level Analysis of TNT and Related Nitroaromatic Compounds Aiming for On-site Detection of Buried Landmines - R.S. Dhesingh, V.G. Kauveri, K. Matsumoto, K. Toko, and N. Miura (Kyushu University) |
Co-Chairs: M. Egashira and Y. Lin
Time | Abs# | Title |
---|---|---|
14:00 | 2561 | Effect of Metal Loading on H2 Sensing Properties of SnO2 Modified with Mesoporous SnO2 - Y. Shimizu, K. Tsumura, T. Hyodo, and M. Egashira (Nagasaki University) |
14:20 | 2562 | Hydrogen Amperometric Gas Sensor: Performance Evaluation by SSTUF - Y.-T. Chao, W.J. Buttner, K. Gupta, and J.J. Stetter (Illinois Institute of Technology) |
14:40 | 2563 | Micromachined Thermoelectric Hydrogen Sensor - K. Tajima, Y. Choi, W. Shin, N. Izu, I. Matsubara, and N. Murayama (National Institute of Advanced Industrial Science and Technology (AIST)) |
15:00 | 2564 | All Solid State Room Temperature Hydrogen Sensor - W. Moritz (Humboldt-University Berlin), V. Fillipov, A. Vasiliev (Kurchatov-Institute), and J. Szeponik (BST) |
15:20 | 2565 | Selective, Sensitive, and Tunable Porous Silicon Gas Sensor - P. Hesketh, S. Lewis, J. Gole, and J. DeBoer (Georgia Institute of Technology) |
15:40 | Twenty-Minute Intermission | |
16:00 | 2566 | Carbon Nanotube Modified Gold (Au) Electrode for H2S Oxidation Reactions - S. Roh, W. Buttner, and J. Stetter (Illinois Institute of Technology) |
16:20 | 2567 | Carbon Nanotubes Based Nanoelectrode Arrays: Fabrication, Evaluation, and Sensing Applications - Y. Lin (Pacific Northwest National Laboratory), Y. Tu (Boston College), F. Lu, W. Yantasee (Pacific Northwest National Laboratory), and Z. Ren (Boston College) |
16:40 | 2568 | Nanoporous-Carbon for Gas Microsensors: Correlating Growth Structures with Performance - M. Siegal, G. Yelton, P. Provencio, D. Overmyer, and A. Staton (Sandia National Laboratories) |
17:00 | 2569 | Exploring the Limits of Detection of Nanoporous-Carbon SAW Coatings - G. Yelton, M. Siegal, A. Staton, and D. Overmyer (Sandia National Laboratories) |
17:20 | 2570 | Modification of Nanoparticle-Organic Composite Electronic Materials for Improved Chemical Sensors - S. Howell, S. Dirk, and D. Wheeler (Sandia National Laboratories) |