Book description
Sales of U.S. chemical sensors represent the largest segment of the multi-billion-dollar global sensor market, which includes instruments for chemical detection in gases and liquids, biosensors, and medical sensors. Although silicon-based devices have dominated the field, they are limited by their general inability to operate in harsh environments
Table of contents
- Front Cover
- Contents
- Preface
- The Editors
- List of Contributors
- Chapter 1: AlGaN/GaN Sensors for Direct Monitoring of Nerve Cell Response to Inhibitors (1/9)
- Chapter 1: AlGaN/GaN Sensors for Direct Monitoring of Nerve Cell Response to Inhibitors (2/9)
- Chapter 1: AlGaN/GaN Sensors for Direct Monitoring of Nerve Cell Response to Inhibitors (3/9)
- Chapter 1: AlGaN/GaN Sensors for Direct Monitoring of Nerve Cell Response to Inhibitors (4/9)
- Chapter 1: AlGaN/GaN Sensors for Direct Monitoring of Nerve Cell Response to Inhibitors (5/9)
- Chapter 1: AlGaN/GaN Sensors for Direct Monitoring of Nerve Cell Response to Inhibitors (6/9)
- Chapter 1: AlGaN/GaN Sensors for Direct Monitoring of Nerve Cell Response to Inhibitors (7/9)
- Chapter 1: AlGaN/GaN Sensors for Direct Monitoring of Nerve Cell Response to Inhibitors (8/9)
- Chapter 1: AlGaN/GaN Sensors for Direct Monitoring of Nerve Cell Response to Inhibitors (9/9)
- Chapter 2: Recent Advances in Wide-Bandgap Semiconductor Biological and Gas Sensors (1/11)
- Chapter 2: Recent Advances in Wide-Bandgap Semiconductor Biological and Gas Sensors (2/11)
- Chapter 2: Recent Advances in Wide-Bandgap Semiconductor Biological and Gas Sensors (3/11)
- Chapter 2: Recent Advances in Wide-Bandgap Semiconductor Biological and Gas Sensors (4/11)
- Chapter 2: Recent Advances in Wide-Bandgap Semiconductor Biological and Gas Sensors (5/11)
- Chapter 2: Recent Advances in Wide-Bandgap Semiconductor Biological and Gas Sensors (6/11)
- Chapter 2: Recent Advances in Wide-Bandgap Semiconductor Biological and Gas Sensors (7/11)
- Chapter 2: Recent Advances in Wide-Bandgap Semiconductor Biological and Gas Sensors (8/11)
- Chapter 2: Recent Advances in Wide-Bandgap Semiconductor Biological and Gas Sensors (9/11)
- Chapter 2: Recent Advances in Wide-Bandgap Semiconductor Biological and Gas Sensors (10/11)
- Chapter 2: Recent Advances in Wide-Bandgap Semiconductor Biological and Gas Sensors (11/11)
- Chapter 3: Advances in Hydrogen Gas Sensor Technology and Implementation in Wireless Sensor Networks (1/7)
- Chapter 3: Advances in Hydrogen Gas Sensor Technology and Implementation in Wireless Sensor Networks (2/7)
- Chapter 3: Advances in Hydrogen Gas Sensor Technology and Implementation in Wireless Sensor Networks (3/7)
- Chapter 3: Advances in Hydrogen Gas Sensor Technology and Implementation in Wireless Sensor Networks (4/7)
- Chapter 3: Advances in Hydrogen Gas Sensor Technology and Implementation in Wireless Sensor Networks (5/7)
- Chapter 3: Advances in Hydrogen Gas Sensor Technology and Implementation in Wireless Sensor Networks (6/7)
- Chapter 3: Advances in Hydrogen Gas Sensor Technology and Implementation in Wireless Sensor Networks (7/7)
- Chapter 4: InN-Based Chemical Sensors (1/4)
- Chapter 4: InN-Based Chemical Sensors (2/4)
- Chapter 4: InN-Based Chemical Sensors (3/4)
- Chapter 4: InN-Based Chemical Sensors (4/4)
- Chapter 5: ZnO Thin-Film and Nanowire-Based Sensor Applications (1/14)
- Chapter 5: ZnO Thin-Film and Nanowire-Based Sensor Applications (2/14)
- Chapter 5: ZnO Thin-Film and Nanowire-Based Sensor Applications (3/14)
- Chapter 5: ZnO Thin-Film and Nanowire-Based Sensor Applications (4/14)
- Chapter 5: ZnO Thin-Film and Nanowire-Based Sensor Applications (5/14)
- Chapter 5: ZnO Thin-Film and Nanowire-Based Sensor Applications (6/14)
- Chapter 5: ZnO Thin-Film and Nanowire-Based Sensor Applications (7/14)
- Chapter 5: ZnO Thin-Film and Nanowire-Based Sensor Applications (8/14)
- Chapter 5: ZnO Thin-Film and Nanowire-Based Sensor Applications (9/14)
- Chapter 5: ZnO Thin-Film and Nanowire-Based Sensor Applications (10/14)
- Chapter 5: ZnO Thin-Film and Nanowire-Based Sensor Applications (11/14)
- Chapter 5: ZnO Thin-Film and Nanowire-Based Sensor Applications (12/14)
- Chapter 5: ZnO Thin-Film and Nanowire-Based Sensor Applications (13/14)
- Chapter 5: ZnO Thin-Film and Nanowire-Based Sensor Applications (14/14)
- Chapter 6: Bioaffinity Sensors Based on MOS Field-Effect Transistors (1/11)
- Chapter 6: Bioaffinity Sensors Based on MOS Field-Effect Transistors (2/11)
- Chapter 6: Bioaffinity Sensors Based on MOS Field-Effect Transistors (3/11)
- Chapter 6: Bioaffinity Sensors Based on MOS Field-Effect Transistors (4/11)
- Chapter 6: Bioaffinity Sensors Based on MOS Field-Effect Transistors (5/11)
- Chapter 6: Bioaffinity Sensors Based on MOS Field-Effect Transistors (6/11)
- Chapter 6: Bioaffinity Sensors Based on MOS Field-Effect Transistors (7/11)
- Chapter 6: Bioaffinity Sensors Based on MOS Field-Effect Transistors (8/11)
- Chapter 6: Bioaffinity Sensors Based on MOS Field-Effect Transistors (9/11)
- Chapter 6: Bioaffinity Sensors Based on MOS Field-Effect Transistors (10/11)
- Chapter 6: Bioaffinity Sensors Based on MOS Field-Effect Transistors (11/11)
- Chapter 7: MEMS-Based Optical Chemical Sensors (1/8)
- Chapter 7: MEMS-Based Optical Chemical Sensors (2/8)
- Chapter 7: MEMS-Based Optical Chemical Sensors (3/8)
- Chapter 7: MEMS-Based Optical Chemical Sensors (4/8)
- Chapter 7: MEMS-Based Optical Chemical Sensors (5/8)
- Chapter 7: MEMS-Based Optical Chemical Sensors (6/8)
- Chapter 7: MEMS-Based Optical Chemical Sensors (7/8)
- Chapter 7: MEMS-Based Optical Chemical Sensors (8/8)
- Back Cover
Product information
- Title: Semiconductor Device-Based Sensors for Gas, Chemical, and Biomedical Applications
- Author(s):
- Release date: April 2016
- Publisher(s): CRC Press
- ISBN: 9781439813881
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