- A Low-Cost Electrochemical Biosensor for Rapid Bacterial Detection
[作者:Nandakumar, V; Bishop, D; Alonas, E; LaBelle, J; Joshi, L; Alford, TL,期刊:IEEE Sensors Journal, 页码:210-216 , 文章类型: Article,,卷期:2011年11-1]
- A three-electrode electrochemical biosensor has been developed using printed circuit boards for detecting bacterial contamination. This low-cost, small-size device consists of thin-film gold electrodes and is fabricated ...
- Thickness Dependency of Thin-Film Samaria-Doped Ceria for Oxygen Sensing
[作者:Sanghavi, R; Nandasiri, M; Kuchibhatla, S; Jiang, WL; Varga, T; Nachimuthu, P; Engelhard, MH; Shutthanandan, V; Thevuthasan, S; Kayani, A; Prasad, S,期刊:IEEE Sensors Journal, 页码:217-224 , 文章类型: Article,,卷期:2011年11-1]
- High-temperature oxygen sensors are widely used for exhaust gas monitoring in automobiles. This particular study explores the use of thin-film single crystalline samaria-doped ceria as the oxygen sensing material. Desire...
- Online Drift Compensation for Chemical Sensors Using Estimation Theory
[作者:Wenzel, MJ; Mensah-Brown, A; Josse, F; Yaz, EE,期刊:IEEE Sensors Journal, 页码:225-232 , 文章类型: Article,,卷期:2011年11-1]
- Sensor drift from slowly changing environmental conditions and other instabilities can greatly degrade a chemical sensor's performance, resulting in poor identification and analyte quantification. In the present work, es...
- Electroactive Polymer "Artificial Muscle" Operable in Ultra-High Hydrostatic Pressure Environment
[作者:Chiba, S; Waki, M; Sawa, T; Yoshida, H; Kornbluh, R; Pelrine, R,期刊:IEEE Sensors Journal, 页码:3-4 , 文章类型: Article,,卷期:2011年11-1]
- Transducers for high-power sonars, an important tool for undersea exploration and monitoring, may be required to work in deep water where pressures are higher than several tens of MPa. In contrast with the piezoelectric ...
- A Robust, Adaptive, Solar-Powered WSN Framework for Aquatic Environmental Monitoring
[作者:Alippi, C; Camplani, R; Galperti, C; Roveri, M,期刊:IEEE Sensors Journal, 页码:45-55 , 文章类型: Article,,卷期:2011年11-1]
- The paper proposes an environmental monitoring framework based on a wireless sensor network technology characterized by energy harvesting, robustness with respect to a large class of perturbations and real-time adaptatio...
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