Metal oxide nanostructures as gas sensing devices

✍ Scribed by G Eranna

Publisher: Taylor & Francis
Year: 2011
Tongue: English
Leaves: 326
Series: Sensors series
Category: Library

No coin nor oath required. For personal study only.

✦ Synopsis

''With an emphasis on gas (vapor) detection techniques using metal oxide nanomaterials, this book presents the complete list of nanostructured metal oxides and their syntheses. From aluminum to zinc, it analyzes metal oxides and their response to different gaseous (vapor) species. It also analyzes gaseous species from acetic acid to toluene. Numerous tables highlight the synthesis, operating range, responding gases, Read more...

✦ Table of Contents

Content: Front Cover; Contents; List of Tables; Preface; Abbreviations and Acronyms; Chapter 1: Introduction; Chapter 2: Miniaturized Solid-State Gas Sensors; Chapter 3: Gas-Sensing Materials and Devices; Chapter 4: Metal-Oxide-Based Gas-Sensor Devices; Chapter 5: Advantages of Nanomaterials; Chapter 6: Synthesis and Characterization of Nanometal Oxides; Chapter 8: Active Devices Based on Nanostructures; Chapter 9: Future Devices and Nanostructured Gas-Sensor Arrays; Appendix: Tables; References; Back Cover.
Abstract: ''With an emphasis on gas (vapor) detection techniques using metal oxide nanomaterials, this book presents the complete list of nanostructured metal oxides and their syntheses. From aluminum to zinc, it analyzes metal oxides and their response to different gaseous (vapor) species. It also analyzes gaseous species from acetic acid to toluene. Numerous tables highlight the synthesis, operating range, responding gases, and response time of various metal oxides. The author details their nanostructures and shapes and explores active devices that use these materials, including future devices and gas sensing arrays such as e-nose. (1) Presents important information on gas sensing devices with an emphasis on future devices (2) Lists the different nanostructured metal oxides useful for gas sensing applications (3) Describes ways of synthesizing these metal oxide nanostructures and identifying the suitable nanostructured material for specific gases and gas mixtures (4) Provides a matrix for nanostructured material versus different pollutant gases and volatile organic compounds (VOCs) suitable for e-nose applications''

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