Low-Dimensional 2D Metal Oxides and their Integration into Conductometric Gas Sensors: Metal Oxides
Editat de Elisabetta Comini, W.G.C. Kumarageen Limba Engleză Paperback – aug 2025
- Provides a comprehensive understanding of low-dimensional MOXs
- Explains the fundamental characterization techniques of 2D MOXs (SEM, AFM, XRD, HR-TEM, XRF, EDX, XPS, SAED, RAMN, DFT)
- Thoroughly explores 2D MOX conductometric gas sensors applications
- Considers future directions in 2D MOX gas sensors
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Specificații
ISBN-13: 9780443222764
ISBN-10: 0443222762
Pagini: 550
Dimensiuni: 152 x 229 mm
Editura: ELSEVIER SCIENCE
Seria Metal Oxides
ISBN-10: 0443222762
Pagini: 550
Dimensiuni: 152 x 229 mm
Editura: ELSEVIER SCIENCE
Seria Metal Oxides
Cuprins
PART 1 Introduction in low dimensional metal oxides and their application in gas sensors
1. Low dimensional 2D metal oxides and their properties
2. Size effect in low dimensional metal oxides
3. Advantages of low dimensional 2D metal oxides
PART 2 Synthesis of 2D metal oxides
4. Features of 2D nanomaterials synthesis
5. Bottom-up approach
6. Top-down approach
7. Liquid metal strategy
PART 3 Features of gas sensors based on low dimensional 2D MOXs
8. Advantages of 2D structures for gas sensor design
9. Features of the fabrication of 2D based gas sensors
10. Features of gas sensing effect in 2D structures
PART 4 Progress of gas sensors based on low dimensional 2D MOXs
11. Progress of 2D MOXs in conductometric chemical gas sensing
12. Engineering of gas sensors based on 2D MOXs
PART 5 Gas sensors based on porous 2D metal oxides
13. Advantages of porous 2D structures for gas sensor design
14. Synthesis of porous 2D metal oxides
15. The role of holes in the surface reactivity of 2D metal oxides
16. Performances of gas sensors based on porous 2D metal oxides
PART 6 Gas sensors based on 3D agglomerated nanoflakes and nanosheets
17. Synthesis and characterization of 3D structures
18. Features of gas sensing effect
19. Performances of gas sensors based
20. Advantages and disadvantages of application in gas sensors
PART 7 Hybrid structures based on 2D materials in conductometric gas sensors
21. Conductometric gas sensors and sensing mechanisms
22. Metal oxides - 2D graphene and reduced graphene oxide (rGO)
23. Metal oxides - 2D transition metal dichalcogenides (TMDs)
24. Metal-organic frameworks
25. Challenges in hybrid material based gas sensing
1. Low dimensional 2D metal oxides and their properties
2. Size effect in low dimensional metal oxides
3. Advantages of low dimensional 2D metal oxides
PART 2 Synthesis of 2D metal oxides
4. Features of 2D nanomaterials synthesis
5. Bottom-up approach
6. Top-down approach
7. Liquid metal strategy
PART 3 Features of gas sensors based on low dimensional 2D MOXs
8. Advantages of 2D structures for gas sensor design
9. Features of the fabrication of 2D based gas sensors
10. Features of gas sensing effect in 2D structures
PART 4 Progress of gas sensors based on low dimensional 2D MOXs
11. Progress of 2D MOXs in conductometric chemical gas sensing
12. Engineering of gas sensors based on 2D MOXs
PART 5 Gas sensors based on porous 2D metal oxides
13. Advantages of porous 2D structures for gas sensor design
14. Synthesis of porous 2D metal oxides
15. The role of holes in the surface reactivity of 2D metal oxides
16. Performances of gas sensors based on porous 2D metal oxides
PART 6 Gas sensors based on 3D agglomerated nanoflakes and nanosheets
17. Synthesis and characterization of 3D structures
18. Features of gas sensing effect
19. Performances of gas sensors based
20. Advantages and disadvantages of application in gas sensors
PART 7 Hybrid structures based on 2D materials in conductometric gas sensors
21. Conductometric gas sensors and sensing mechanisms
22. Metal oxides - 2D graphene and reduced graphene oxide (rGO)
23. Metal oxides - 2D transition metal dichalcogenides (TMDs)
24. Metal-organic frameworks
25. Challenges in hybrid material based gas sensing