Complex and Composite Metal Oxides for Gas, VOC, and Humidity Sensors, Volume 1
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Complex and Composite Metal Oxides for Gas, VOC, and Humidity Sensors, Volume 1
Fundamentals and Approaches
Yadav, Bal Chandra; Kumar, Pragati
Elsevier - Health Sciences Division
10/2023
442
Mole
Inglês
9780323953856
15 a 20 dias
Descrição não disponível.
PART 1 Metal oxide-based gas and humidity sensors: Fundamentals
1. Applications of gas and VOC sensors for industry and environmental monitoring: Current trends and future implications
2. Fundamentals of electrical gas sensors
3. Principles and methods of optical and fiber optic gas sensing
4. Why do we need humidity sensors?
PART 2 Metal oxide-based hybrids and their gas sensing characteristics
5. Metal oxide-polymer composites for gas-sensing applications
6. Composites for gas sensors based on metal oxide and noble metals
7. Metal oxide gas sensors based on metal-organic frameworks (MOFs)
PART 3 Other type of gas and VOC sensors based on metal oxide nanocomposites and hybrids
8. Complex metal oxide compounds and composites designed for high-temperature solid electrolyte-based oxygen, hydrogen gas sensors
9. QCM and SAW gas and VOC sensors based on metal oxide composites (principles, fabrication, sensing materials, and performances)
PART 4 Metal oxide-based nanocomposites for optical sensing of gas and VOCs
10. Metal oxide nanocomposites for surface plasmon resonance based gas sensing
11. Functionalized metal oxide nanocomposites for fiber optic gas and vapor sensors
12. Metal oxide nanocomposites for gas and VOC sensors based on other optical methods
PART 5 Humidity sensors based on metal oxide nanocomposites
13. Metal oxide-based nanocomposites designed for humidity sensor applications
14. Humidity sensors based on solid-state metal-oxide hybrids
15. Polymer/metal oxide composites and their humidity sensing characteristics
1. Applications of gas and VOC sensors for industry and environmental monitoring: Current trends and future implications
2. Fundamentals of electrical gas sensors
3. Principles and methods of optical and fiber optic gas sensing
4. Why do we need humidity sensors?
PART 2 Metal oxide-based hybrids and their gas sensing characteristics
5. Metal oxide-polymer composites for gas-sensing applications
6. Composites for gas sensors based on metal oxide and noble metals
7. Metal oxide gas sensors based on metal-organic frameworks (MOFs)
PART 3 Other type of gas and VOC sensors based on metal oxide nanocomposites and hybrids
8. Complex metal oxide compounds and composites designed for high-temperature solid electrolyte-based oxygen, hydrogen gas sensors
9. QCM and SAW gas and VOC sensors based on metal oxide composites (principles, fabrication, sensing materials, and performances)
PART 4 Metal oxide-based nanocomposites for optical sensing of gas and VOCs
10. Metal oxide nanocomposites for surface plasmon resonance based gas sensing
11. Functionalized metal oxide nanocomposites for fiber optic gas and vapor sensors
12. Metal oxide nanocomposites for gas and VOC sensors based on other optical methods
PART 5 Humidity sensors based on metal oxide nanocomposites
13. Metal oxide-based nanocomposites designed for humidity sensor applications
14. Humidity sensors based on solid-state metal-oxide hybrids
15. Polymer/metal oxide composites and their humidity sensing characteristics
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Environmental monitoring; gas sensor; humidity sensor; nanocomposites; electrical gas sensor; optical gas sensor
PART 1 Metal oxide-based gas and humidity sensors: Fundamentals
1. Applications of gas and VOC sensors for industry and environmental monitoring: Current trends and future implications
2. Fundamentals of electrical gas sensors
3. Principles and methods of optical and fiber optic gas sensing
4. Why do we need humidity sensors?
PART 2 Metal oxide-based hybrids and their gas sensing characteristics
5. Metal oxide-polymer composites for gas-sensing applications
6. Composites for gas sensors based on metal oxide and noble metals
7. Metal oxide gas sensors based on metal-organic frameworks (MOFs)
PART 3 Other type of gas and VOC sensors based on metal oxide nanocomposites and hybrids
8. Complex metal oxide compounds and composites designed for high-temperature solid electrolyte-based oxygen, hydrogen gas sensors
9. QCM and SAW gas and VOC sensors based on metal oxide composites (principles, fabrication, sensing materials, and performances)
PART 4 Metal oxide-based nanocomposites for optical sensing of gas and VOCs
10. Metal oxide nanocomposites for surface plasmon resonance based gas sensing
11. Functionalized metal oxide nanocomposites for fiber optic gas and vapor sensors
12. Metal oxide nanocomposites for gas and VOC sensors based on other optical methods
PART 5 Humidity sensors based on metal oxide nanocomposites
13. Metal oxide-based nanocomposites designed for humidity sensor applications
14. Humidity sensors based on solid-state metal-oxide hybrids
15. Polymer/metal oxide composites and their humidity sensing characteristics
1. Applications of gas and VOC sensors for industry and environmental monitoring: Current trends and future implications
2. Fundamentals of electrical gas sensors
3. Principles and methods of optical and fiber optic gas sensing
4. Why do we need humidity sensors?
PART 2 Metal oxide-based hybrids and their gas sensing characteristics
5. Metal oxide-polymer composites for gas-sensing applications
6. Composites for gas sensors based on metal oxide and noble metals
7. Metal oxide gas sensors based on metal-organic frameworks (MOFs)
PART 3 Other type of gas and VOC sensors based on metal oxide nanocomposites and hybrids
8. Complex metal oxide compounds and composites designed for high-temperature solid electrolyte-based oxygen, hydrogen gas sensors
9. QCM and SAW gas and VOC sensors based on metal oxide composites (principles, fabrication, sensing materials, and performances)
PART 4 Metal oxide-based nanocomposites for optical sensing of gas and VOCs
10. Metal oxide nanocomposites for surface plasmon resonance based gas sensing
11. Functionalized metal oxide nanocomposites for fiber optic gas and vapor sensors
12. Metal oxide nanocomposites for gas and VOC sensors based on other optical methods
PART 5 Humidity sensors based on metal oxide nanocomposites
13. Metal oxide-based nanocomposites designed for humidity sensor applications
14. Humidity sensors based on solid-state metal-oxide hybrids
15. Polymer/metal oxide composites and their humidity sensing characteristics
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
