Chemical Sensors : Simulation and Modeling (Volume 2): Conductometric-Type Sensors

Title: Chemical Sensors : Simulation and Modeling (Volume 2): Conductometric-Type Sensors
Author: Ghenadii Korotcenkov
ISBN: 160650312X / 9781606503126
Format: Hard Cover
Pages: 480
Publisher: Momentum Press
Year: 2012
Availability: Out of Stock

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Chemical sensors are integral to the automation of myriad industrial processes and everyday monitoring of such activities as public safety, engine performance, medical therapeutics, and many more. This 5 volume reference work covering simulation and modeling will serve as the perfect complement to Momentum Press's 6 volume reference works 'Chemical Sensors: Fundamentals of Sensing Materials' and 'Chemical Sensors: Comprehensive Sensor Technologies', which present detailed information related to materials, technologies, construction and application of various devices for chemical sensing.

This 5 volume comprehensive reference work analyzes approaches used for computer simulation and modeling in various fields of chemical sensing and discusses various phenomena important for chemical sensing such as bulk and surface diffusion, adsorption, surface reactions, sintering, conductivity, mass transport, interphase interactions, etc. In this work it will be shown that theoretical modeling and simulation of the processes, being a basic for chemical sensors operation, could provide considerable progress in choosing both optimal materials and optimal configurations of sensing elements for using in chemical sensors.

Each simulation and modeling volume in the present series reviews modeling principles and approaches peculiar to specific groups of materials and devices applied for chemical sensing. Volume 2: Conductometric-Type Sensors covers phenomenological modeling and computational design of conductometric chemical sensors based on nanostructured materials such as metal oxides, carbon nanotubes and graphene.

This volume contains an overview of the approaches used to quantitatively evaluate characteristics of sensitive structures in which electric charge transport depends on the interaction between the surfaces of the structures and chemical compounds in the surrounding.

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Preface
About the Editor
Contributors

Chapter 1 : Numerical Simulation of Electrical Responses to Gases in Advanced Structures
Chapter 2 : Co-Adsorption Processes and Quantum Mechanical Modeling of Gas-Sensing Effects
Chapter 3 : Nanosensors : A Platform to Model the Sensing Mechanisms in Metal Oxides
Chapter 4 : Surface State Models for Conductance Response of Metal Oxide Gas Sensors During Thermal Transients
Chapter 5 : Conductance Transient Analysis of Metal Oxide Gas Sensors on The Example of Spinel Ferrite Gas Sensors
Chapter 6 : Model of Thermal Transient Response of Semiconductor Gas Sensors
Chapter 7 : Experimental Investigation and Modeling of Gas-Sensing Effect in Mixed Metal Oxide Nanocomposites
Chapter 8 : The Influence of Water Vapor on the Gas-Sensing Phenomenon of Tin Dioxide-Based Gas Sensors
Chapter 9 : Computational Design of Chemical Nanosensors : Transition Metal-Doped Single-Walled Carbon Nanotubes
Chapter 10 : Al-Doped Graphene for Ultrasensitive Gas Detection
Chapter 11 : Physics-Based Modeling of SNO2 Gas Sensors with Field-Effect Transistor Structure
Chapter 12 : Modeling and Simulation of Nanowire-Based Field-Effect Biosensors

Index