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|a UAMI
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245 |
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|a Chemical sensors :
|b fundamentals of sensing materials.
|n Volume 1,
|p General approaches /
|c edited by Ghenadii Korotcenkov.
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246 |
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|a Fundamentals of sensing materials
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246 |
3 |
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|a General approaches
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250 |
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|a 1st ed.
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260 |
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|a [New York, N.Y.] (222 East 46th Street, New York, NY 10017) :
|b Momentum Press,
|c 2010.
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300 |
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|a 1 online resource (xviii, 388 pages :
|b illustrations
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336 |
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|a text
|b txt
|2 rdacontent
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|a computer
|b c
|2 rdamedia
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|a online resource
|b cr
|2 rdacarrier
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|a Sensor technology series
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|a Includes bibliographical references and index.
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|a Preface to Chemical sensors: fundamentals of sensing materials -- Preface to Volume 1: General approaches -- About the editor -- Contributors.
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|a 1. Basic principles of chemical sensor operation / M.Z. Atashbar, S. Krishnamurthy, G. Korotcenkov -- Introduction -- Electrochemical sensors -- Amperometric sensors -- Conductometric sensors -- Potentiometric sensors -- Capacitance sensors -- Work-function sensors -- Field-effect transistor sensors -- chemFET-based sensors -- Schottky diode-based sensors -- Catalytic sensors -- Conductometric sensors -- Acoustic wave sensors -- Thickness shear mode sensors -- Surface acoustic wave sensors -- Mass-sensitive sensors -- Optical sensors -- Fiber optic chemical sensors -- Fluorescence fiber optic chemical sensors -- Absorption fiber optic chemical sensors -- Refractometric fiber optic chemical sensors -- Absorption-based sensors -- Surface plasmon resonance sensors -- Photoacoustic sensors -- Thermoelectric sensors -- Thermal conductivity sensors -- Flame ionization sensors -- Langmuir-Blodgett film sensors -- References.
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505 |
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|a 2. Desired properties for sensing materials / G. Korotcenkov -- Introduction -- Common characteristics of metal oxides -- Crystal structure of metal oxides -- Electronic structure of metal oxides -- Role of the electronic structure of metal oxides in surface processes -- Surface properties of sensing materials -- Electronic properties of metal oxide surfaces -- Role of adsorption/desorption parameters in gas-sensing effects -- Catalytic activity of sensing materials -- Stability of parameters in sensing materials -- Thermodynamic stability -- Chemical stability -- Long-term stability -- Electrophysical properties of sensing materials -- Oxygen diffusion in metal oxides -- Conductivity type -- Band gap -- Electroconductivity -- Other important parameters for sensing materials -- Structural properties of sensing materials -- Grain size -- Crystal shape -- Surface geometry -- Film texture -- Surface stoichiometry (disordering) -- Porosity and active surface area -- Agglomeration -- Outlook -- Acknowledgments -- References.
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|a 3. Combinatorial concepts for development of sensing materials / R.A. Potyrailo -- Introduction -- General principles of combinatorial materials screening -- Opportunities for sensing materials -- Designs of combinatorial libraries of sensing materials -- Discovery and optimization of sensing materials using discrete arrays -- Radiant energy transduction sensors -- Mechanical energy transduction sensors -- Electrical energy transduction sensors -- Optimization of sensing materials using gradient arrays -- Variable concentration of reagents -- Variable thickness of sensing films -- Variable 2-D composition -- Variable operation temperature and diffusion-layer thickness -- Emerging wireless technologies for combinatorial screening of sensing materials -- Summary and outlook -- Acknowledgments -- References.
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|a 4. Synthesis and deposition of sensor materials / G. Korotcenkov, B.K. Cho -- 1. Deposition technology: introduction and overview -- 2. Vacuum evaporation and vacuum deposition -- Principles of film deposition by the vacuum evaporation method -- Disadvantages of the vacuum evaporation method -- Film deposition by thermal evaporation -- 3. Sputtering technology -- Principles of deposition by sputtering -- Sputtering techniques -- Advantages and disadvantages of sputtering technology -- Properties of films deposited by sputtering -- 4. The RGTO technique -- Particulars of the RGTO method -- Advantages and disadvantages of RGTO -- 5. Laser ablation or pulsed laser deposition -- Principles of pulsed laser deposition -- Advantages and disadvantages of PLD -- Technical approaches to improving PLD results -- Some particulars of film deposition by the PLD method -- 6. Ion-beam-assisted deposition (IBAD) -- Introduction -- Principles of the IBAD method -- 7. Chemical vapor deposition -- Introduction -- Principles of the CVD process -- Chemical precursors and reaction chemistry -- Particulars of CVD technology -- Advantages and disadvantages of CVD -- Variants of CVD methods -- 8. Deposition from aerosol phase -- Introduction -- Principles and mechanism of the deposition process -- Atomization techniques -- Advantages and disadvantages of deposition from an aerosol phase -- Technology of the pyrolysis process -- Regularities of metal oxide growth during spray pyrolysis deposition -- 9. Deposition from aqueous solutions -- Introduction -- Chemical bath deposition (CBD) -- Selective ion-layer adsorption and reaction (SILAR) or successive -- Ionic-layer deposition (SILD) -- Liquid-phase deposition (LPD) -- Electroless deposition (ED) -- Electrochemical deposition (ECD) -- Ferrite plating -- Liquid flow deposition (LFD) -- Electrophoretic deposition (EPD) -- Photochemical deposition (PCD), applying external forces or fields -- Summary -- 10. The sol-gel process -- Introduction -- Principles of the sol-gel process -- Sol-gel chemistry and technology -- Advantages and disadvantages of sol-gel techniques -- Calcination of sol-gel-obtained oxides -- Organic-inorganic hybrid materials (OIHM) -- Summary -- 11. Powder technology -- Introduction -- Gas processing condensation (GPC) -- Chemical vapor condensation (CVC) -- Microwave plasma processing (MPP) -- Combustion flame synthesis (CFS) -- Nanopowder collection -- Mechanical milling of powders -- Summary -- 12. Polymer technology -- Introduction -- Methods of polymer synthesis -- Fabrication of polymer films -- 13. Deposition on fibers -- Specifics of film deposition on fibers -- Coating design and tooling -- Outlook -- Acknowledgments -- References.
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|a 5. Modification of sensing materials: metal oxide materials engineering / G. Korotcenkov -- Introduction -- Control of sensor response through structural engineering of metal oxides -- Structural engineering, what does it mean -- Structural engineering of metal oxides, technical approaches -- Sensor response control through modification of metal oxide composition -- Phase modification of metal oxides -- Methods of phase modification -- Influence of additives on structural properties of multicomponent metal oxides -- Gas-sensing properties of multicomponent metal oxides -- Sensor response control through surface modification of metal oxides -- Methods of surface modification -- Influence of surface modification on gas-sensing properties of metal oxides -- Surface additives as active and passive filters -- Improved operating characteristics of gas sensors through materials engineering of metal oxides: what determines the choice -- Device application -- The nature of the gas to be detected -- Detection mechanism -- Environmental conditions during use -- Required rate of sensor response -- Required sensitivity -- Sensor response selectivity -- Compatibility with peripheral measuring devices -- Summary -- Acknowledgments -- References -- Index.
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|a This volume provides an introduction to the fundamentals of sensing materials. We have tried to provide here the basic knowledge necessary for understanding chemical sensing through a brief description of the principles of chemical sensor operation and consideration of the processes that take place in chemical sensors and that are responsible for observed operating characteristics. In spite of the seeming extreme simplicity of chemical sensor operation and application, understanding the mechanisms involved in the process of chemical sensing is usually not so simple. Chemical sensing as a rule is a multistage and multichannel process, which requires a multidisciplinary approach. Therefore, in this volume we provide a description of the important electronic, electrophysical, and chemical properties, as well as diffusion, adsorption/desorption, and catalytic processes.
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|a Title from PDF title page (viewed Sept. 16, 2010).
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|a English.
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|a eBooks on EBSCOhost
|b EBSCO eBook Subscription Academic Collection - Worldwide
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|a Chemical detectors.
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|a Détecteurs de produits chimiques.
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|a TECHNOLOGY & ENGINEERING
|x Sensors.
|2 bisacsh
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|a Chemical detectors
|2 fast
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|a chemical sensors
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|a sensing materials
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|a properties
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|a selection
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|a development
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|a synthesis
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|a deposition
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|a modification
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|a Korotchenkov, G. S.
|q (Gennadiĭ Sergeevich)
|
776 |
0 |
8 |
|i Print version:
|a Korotcenkov, Ghenadii.
|t Chemical Sensors : Fundamentals of Sensing Materials.
|d Highland Park : Momentum Press, ©2010
|z 9781606501030
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830 |
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0 |
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