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Gas Sensing Fundamentals electronic resource edited by Claus-Dieter Kohl, Thorsten Wagner.

Contributor(s): Kohl, Claus-Dieter [editor.] | Wagner, Thorsten [editor.] | SpringerLink (Online service)Material type: TextTextSeries: Springer Series on Chemical Sensors and Biosensors, Methods and ApplicationsPublication details: Berlin, Heidelberg : Springer Berlin Heidelberg : Imprint: Springer, 2014Description: IX, 342 p. 156 illus., 51 illus. in color. online resourceContent type: text Media type: computer Carrier type: online resourceISBN: 9783642545191Subject(s): chemistry | Analytical biochemistry | Spectroscopy | Food science | Optical materials | Chemistry | Analytical Chemistry | Spectroscopy/Spectrometry | Food Science | Applied and Technical Physics | Optical and Electronic MaterialsDDC classification: 543 LOC classification: QD71-142Online resources: Click here to access online
Contents:
High-Temperature Gas Sensors -- Insect Olfaction as a Natural Blue-Print of Gas-Sensors?-Sensor Arrays, Virtual Multisensors, Data Fusion and Gas Sensor Data Evaluation -- Carbon Nanotube Gas Sensors -- New Sensing Model of (mesoporous) In2O3 -- SAW and Functional Polymers -- Percolation effects in metal oxide gas sensors and related systems -- Calorimetric Gas Sensors for Hydrogen Peroxide Monitoring in Aseptic Food Processes -- Group III-nitride chemical nanosensors with optical readout.
In: Springer eBooksSummary: This volume, which addresses various basic sensor principles, covers micro gravimetric sensors, semiconducting and nano tube sensors, calorimetric sensors and optical sensors. Furthermore, the authors discuss recent developments in the related sensitive layers including new properties of nano structured metal oxide layers. They provide in-depth insights into the unique chemistry and signal generation of copper oxide in percolating sensors and present a variety of applications of functional polymers made possible by proper imprinting. Highlights of the subjects covered include: •          requirements for high-temperature sensors •          carbon nano tube sensors •          new sensing model for nanostructured In2O3 •          bio mimetic approach for semiconductor sensor-based systems •          optical readout for inorganic and organic semiconductor sensors •          concept of virtual multisensors to improve specificity and selectivity •          calorimetric sensors for hydrogen peroxide detection •          percolation effect-based sensors to implement dosimeters •          imprinted polymer layers for bulk and surface acoustic wave sensors.
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High-Temperature Gas Sensors -- Insect Olfaction as a Natural Blue-Print of Gas-Sensors?-Sensor Arrays, Virtual Multisensors, Data Fusion and Gas Sensor Data Evaluation -- Carbon Nanotube Gas Sensors -- New Sensing Model of (mesoporous) In2O3 -- SAW and Functional Polymers -- Percolation effects in metal oxide gas sensors and related systems -- Calorimetric Gas Sensors for Hydrogen Peroxide Monitoring in Aseptic Food Processes -- Group III-nitride chemical nanosensors with optical readout.

This volume, which addresses various basic sensor principles, covers micro gravimetric sensors, semiconducting and nano tube sensors, calorimetric sensors and optical sensors. Furthermore, the authors discuss recent developments in the related sensitive layers including new properties of nano structured metal oxide layers. They provide in-depth insights into the unique chemistry and signal generation of copper oxide in percolating sensors and present a variety of applications of functional polymers made possible by proper imprinting. Highlights of the subjects covered include: •          requirements for high-temperature sensors •          carbon nano tube sensors •          new sensing model for nanostructured In2O3 •          bio mimetic approach for semiconductor sensor-based systems •          optical readout for inorganic and organic semiconductor sensors •          concept of virtual multisensors to improve specificity and selectivity •          calorimetric sensors for hydrogen peroxide detection •          percolation effect-based sensors to implement dosimeters •          imprinted polymer layers for bulk and surface acoustic wave sensors.

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