Chemical sensors : simulation and modeling. Volume 2, Conductometric-type sensors /

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This series, Chemical Sensors: Simulation and Modeling, is the perfect complement to Momentum Press's six-volume reference series, Chemical Sensors: Fundamentals of Sensing Materials and Chemical Sensors: Comprehensive Sensor Technologies, which present detailed information about materials, tec...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Otros Autores: Korotchenkov, G. S. (Gennadiĭ Sergeevich)
Formato: Electrónico eBook
Idioma:Inglés
Publicado: [New York, N.Y.] (222 East 46th Street, New York, NY 10017) : Momentum Press, 2012.
Colección:Sensor technology series.
Temas:
Chemical detectors.
Nanostructured materials.
Nanostructures
Détecteurs de produits chimiques.
Nanomatériaux.
TECHNOLOGY & ENGINEERING > Sensors.
Chemical detectors
Nanostructured materials
chemical sensors
conductometric sensors
gas sensing
resistive chemical sensors
nanosensors
metal oxide sensors
spinel ferrite gas sensors
semiconductor gas sensors
mixed metal oxide nanocomposites
tin dioxide-based gas sensors
transition metal-doped single-walled carbon nanotubes
aluminum-doped graphene
nanowire-based field-effect biosensors
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Preface
  • About the editor
  • Contributors.
  • 1. Numerical simulation of electrical responses to gases in advanced structures / A. Šetkus
  • Introduction
  • Analytic and numeric modeling
  • Resistive sensors
  • Concluding comments
  • References.
  • 2. Co-adsorption processes and quantum mechanical modeling of gas-sensing effects / J.-J. Velasco-Vélez
  • Introduction
  • Solid-gas interaction
  • Co-adsorption
  • Discussion
  • Summary
  • Nomenclature
  • Dedication
  • Acknowledgment
  • References.
  • 3. Nanosensors: a platform to model the sensing mechanisms in metal oxides / F. Hernandez-Ramirez, J.D. Prades, A. Cirera
  • Introduction
  • Toward a better description of gas-sensing mechanisms in metal oxides: oxygen diffusion in tin dioxide nanowires
  • Toward a systematic understanding of photo-activated gas sensors
  • Conclusions
  • Acknowledgments
  • References.
  • 4. Surface state models for conductance response of metal oxide gas sensors during thermal transients / A. Fort [and others]
  • Introduction
  • Surface-state-based models of resistive chemical sensors
  • Building a chemical-physical sensor model: from the chemistry to the resistance variations
  • Surface state-based models for chemical resistive sensors: different assumptions and points of view
  • Developing a treatable gray model from the physical-chemical model
  • Conclusions
  • Nomenclature
  • References.
  • 5. Conductance transient analyses of metal oxide gas sensors on the example of spinel ferrite gas sensors / K. Mukherjee, S.B. Majumder
  • Introduction
  • Salient features of gas-solid interaction during gas sensing
  • Experimental
  • Modeling the conductance transients during response and recovery
  • Characteristic features observed in resistance transients
  • Summary and conclusions
  • Appendix
  • Nomenclature
  • Acknowledgment
  • References.
  • 6. Model of thermal transient response of semiconductor gas sensors / Akira Fujimoto
  • Introduction
  • Improvement in selectivity of the semiconductor gas sensor using transient response
  • Model of thermal transient response of semiconductor gas sensors
  • Modeling of gas sensor processes
  • Calculation methods
  • Calculated transient responses of gas sensors
  • Application of the model of transient response
  • Conclusions
  • References.
  • 7. Experimental investigation and modeling of gas-sensing effect in mixed metal oxide nanocomposites / L.I. Trakhtenberg [and others]
  • Introduction
  • Types of mixed metal oxides
  • Synthesis of metal oxide nanocomposites
  • Charge transfer processes and conductivity
  • Conductivity mechanism
  • Sensor properties
  • Mechanism of sensor effect
  • Modeling of the sensory effect for reduced gases
  • Conclusions
  • Acknowledgment
  • References.
  • 8. The influence of water vapor on the gas-sensing phenomenon of tin dioxide-based gas sensors / R.G. Pavelko
  • Introduction
  • Direct water effects on tin dioxide-based gas sensors
  • Indirect water effects on tin dioxide-based gas sensors
  • Phenomenological model
  • Conclusions
  • Acknowledgments
  • References.
  • 9. Computational design of chemical nanosensors: transition metal-doped single-walled carbon nanotubes / Duncan J. Mowbray [and others]
  • Introduction
  • TM-doped SWNTs as nanosensors
  • Density functional theory
  • Kinetic modeling
  • Nonequilibrium Green's function methodology
  • Sensing property
  • Conclusions
  • Acknowledgments
  • References.
  • 10. AL-doped graphene for ultrasensitive gas detection / Z.M. Ao, Q. Jiang, S. Li
  • Emerging graphene-based gas sensors
  • Aluminum-doped graphene for CO detection
  • Aluminum-doped graphene for formaldehyde detection
  • Aluminum-doped graphene for detection of HF molecules
  • Conclusion and future challenges
  • Acknowledgments
  • References.
  • 11. Physics-based modeling of SnO2 gas sensors with field-effect transistor structure / P. Andrei [and others]
  • Introduction
  • Physics-based modeling of the nanobelts
  • Model calibration
  • Analytical model for nanobelt sensors
  • Conclusion
  • Appendix: Fabrication and experimental data
  • References.
  • 12. Modeling and simulation of nanowire-based field-effect biosensors / S. Baumgartner, M. Vasicek, C. Heitzinger
  • Introduction
  • Homogenization
  • The biofunctionalized boundary layer
  • The current through the nanowire transducer
  • Summary
  • Acknowledgment
  • References.
  • Index.

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