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Functionalized graphene nanocomposites and their derivatives : synthesis, processing and applications /
Functionalized Graphene Nanocomposites and Their Derivatives: Synthesis, Processing and Applications explains how the functionalization technique is used to create graphene nanocomposites, also exploring its current uses in industrial applications. Graphene-based nanocomposites are one of the major...
| Clasificación: | Libro Electrónico |
|---|---|
| Otros Autores: | , , |
| Formato: | Electrónico eBook |
| Idioma: | Inglés |
| Publicado: |
Amsterdam, Netherlands :
Elsevier Ltd. : Elsevier,
2019.
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| Temas: | |
| Acceso en línea: | Texto completo |
Tabla de Contenidos:
- 3.3 PHOTOCATALYSTIC DEGRADATION OF ENVIRONMENTAL POLLUTANTS
- REFERENCES
- 6
- RHEOLOGICAL PROPERTIES OF FUNCTIONALIZED GRAPHENE AND POLYMERIC MATRICES-BASED NANOCOMPOSITES
- 1. INTRODUCTION
- 2. NANOCOMPOSITES-BASED GRAPHENE AND POLYMERIC MATRIX
- 3. PROCESSING TECHNIQUES OF GRAPHENE-BASED NANOCOMPOSITES
- 4. FUNCTIONALIZATION OF GRAPHENE
- 4.1 NONCOVALENT FUNCTIONALIZATION
- 4.2 COVALENT FUNCTIONALIZATION OF GRAPHENE
- 4.2.1 Functionalization of Graphene Oxide
- 5. NANOCOMPOSITES CHARACTERIZATION
- 5.1 FUNCTIONALIZED GRAPHENE OXIDE (SILANE) PREPARATION
- 5.2 NANOCOMPOSITES MANUFACTURING
- 5.3 MECHANICAL PROPERTIES
- 5.4 RHEOLOGICAL PROPERTIES ON TORSIONAL MODE
- 6. CONCLUSION
- REFERENCES
- FURTHER READING
- 7
- FUNCTIONALIZED GRAPHENE-REINFORCED FOAMS BASED ON POLYMER MATRICES: PROCESSING AND APPLICATIONS
- 1. INTRODUCTION
- 2. PRODUCTION OF GRAPHENE
- 3. APPLICATIONS OF GRAPHENE-BASED POLYMER FOAMS
- 3.1 POLYURETHANE FOAMS
- 3.2 SILICONE FOAMS
- 3.3 POLYSTYRENE FOAMS
- 3.4 POLY(METHYL METHACRYLATE) FOAMS
- 3.5 POLY(VINYLIDENE FLUORIDE) FOAMS
- 3.6 POLYIMIDE FOAMS
- 3.7 OTHER FOAMS
- 4. DISCUSSION AND CONCLUSIONS
- REFERENCES
- 8
- FUNCTIONALIZED GRAPHENE AEROGEL: STRUCTURAL AND MORPHOLOGICAL PROPERTIES AND APPLICATIONS
- 1. INTRODUCTIONS
- 2. MORPHOLOGICAL STUDY
- 3. APPLICATION
- 4. PROPERTIES
- 5. GRAPHENE AEROGELS IN ENERGY STORAGE APPLICATIONS
- 6. GRAPHENE AEROGELS IN GAS SENSING APPLICATIONS
- REFERENCES
- 9
- COMPARISON BETWEEN FUNCTIONALIZED GRAPHENE AND CARBON NANOTUBES: EFFECT OF MORPHOLOGY AND SURFACE GROUP ON MECH ...
- 1. INTRODUCTION TO GRAPHENE AND CARBON NANOTUBE NANOCOMPOSITES
- 2. FUNDAMENTAL ASPECTS ON MORPHOLOGY AND SURFACE GROUP OF GRAPHENE AND CARBON NANOTUBE NANOCOMPOSITES.
- 3. EFFECT OF MORPHOLOGY AND SURFACE GROUP TO MECHANICAL PROPERTIES OF GRAPHENE AND CARBON NANOTUBE NANOCOMPOSITES
- 3.1 INTRODUCTION
- 3.2 TENSILE STRENGTH AND YOUNG'S MODULUS OF DIFFERENT CARBON NANOMATERIALS WITH POLYMER COMPOSITES
- 3.2.1 Effect of Combinations of Different Carbon Nanomaterials With Polyvinyl Alcohol on Tensile Strength and Young's Modulus
- 3.2.2 Effect of Combinations of Different Carbon Nanomaterials With Polyether Sulfone on Tensile Strength and Young's Modulus
- 3.2.3 Effect of Combination Different Carbon Nanomaterials With HydroMedD640 on Tensile Strength and Young's Modulus
- 3.2.4 Effect of Combinations of Different Carbon Nanomaterials With High-Density Polyethylene on Tensile Strength and Young's Modulus
- 3.2.5 Effect of Combinations of Different Carbon Nanomaterials With Epoxy on Tensile Strength and Young's Modulus
- 3.2.6 Effect of Combinations of Different Carbon Nanomaterials With Poly(ethylene-2,6-naphthalate) on Tensile Strength and Young' ...
- 3.3 FRACTURE TOUGHNESS OF NANOCOMPOSITE MATERIALS
- 4. EFFECT OF FILLER CONCENTRATION, FABRICATION, AND MODIFICATION ON ELECTRICAL PROPERTIES OF GRAPHENE AND CARBON NANOTUBE NANO ...
- 4.1 THE ELECTRICAL CONDUCTIVITY MECHANISM
- 4.2 EFFECT OF CONCENTRATION
- 4.3 EFFECT OF FABRICATION
- 4.4 EFFECT OF FILLER MODIFICATION
- 5. EFFECT OF MORPHOLOGY AND SURFACE GROUP TO THERMAL PROPERTIES OF GRAPHENE AND CARBON NANOTUBE NANOCOMPOSITES
- 5.1 THERMAL CONDUCTIVITY AND COEFFICIENT OF THERMAL EXPANSION ON GRAPHENE-BASED POLYMER NANOCOMPOSITES
- 5.2 EFFECT OF THERMAL CONDUCTIVITY WITH FILLER CONTENTS OF GRAPHENE AND MULTIWALLED CARBON NANOTUBES
- 5.3 EFFECT OF GRAPHENE PLATELETS AND CARBON NANOTUBES ON THE THERMAL PROPERTIES OF EPOXY COMPOSITES
- 6. CONCLUSION AND FUTURE WORKS
- REFERENCES.
- 10
- FUNCTIONALIZED GRAPHENE REINFORCED HYBRID NANOCOMPOSITES AND THEIR APPLICATIONS
- 1. INTRODUCTION
- 2. GRAPHENE AND ITS SYNTHESIS
- 3. GRAPHENE PROPERTIES AND APPLICATIONS
- 4. FUNCTIONALIZED GRAPHENE
- 5. HYBRID NANOCOMPOSITES
- 6. FUNCTIONALIZED GRAPHENE-REINFORCED HYBRID POLYMER NANOCOMPOSITES
- 7. APPLICATIONS OF FUNCTIONALIZED GRAPHENE HYBRID NANOCOMPOSITES
- 8. CONCLUSION
- REFERENCES
- 11
- FUNCTIONALIZED GRAPHENE-BASED NANOCOMPOSITES FOR ENERGY APPLICATIONS
- 1. GRAPHENE: A BRIEF HISTORY OR INTRODUCTION
- 2. GRAPHENE: A BRIEF HISTORY
- 2.1 PROPERTIES AND CHARACTERISTICS
- 3. GRAPHENE PREPARATION METHODS
- 3.1 MECHANICAL EXFOLIATION
- 3.2 CHEMICAL VAPOR DEPOSITION
- 3.3 LIQUID-PHASE EXFOLIATION
- 3.4 ELECTROCHEMICAL EXFOLIATION
- 3.5 REDUCTION OF GRAPHENE OXIDE
- 4. DEVELOPMENT OF GRAPHENE REINFORCED POLYMER COMPOSITES
- 4.1 SOLUTION MIXING
- 4.2 MELT BLENDING
- 4.3 IN SITU POLYMERIZATION
- 4.4 HIGH SHEAR MIXING-CALENDERING
- 5. PROPERTIES OF GRAPHENE-BASED REINFORCED POLYMER COMPOSITES
- 5.1 MECHANICAL PROPERTIES
- 5.2 ELECTRICAL PROPERTIES
- 6. GRAPHENE-BASED NANOCOMPOSITES FOR ENERGY APPLICATIONS
- 6.1 ENERGY STORAGE
- 7. CHARACTERIZATION OF GRAPHENE-REINFORCED COMPOSITES: MORPHOLOGICAL STUDIES
- 8. CONCLUSION
- REFERENCES
- 12
- ELECTRONIC APPLICATIONS OF FUNCTIONALIZED GRAPHENE NANOCOMPOSITES
- 1. INTRODUCTION
- 2. GRAPHENE IN ELECTRONIC APPLICATIONS
- 3. GRAPHENE NANOCOMPOSITES FOR MICROSENSING DEVICES
- 4. GRAPHENE NANOCOMPOSITE-FILLED POLYMER FOR STRETCHABLE CONDUCTIVE INK
- 5. GRAPHENE-FILLED POLYMERS IN SOLAR CELL APPLICATIONS
- 5.1 PRINCIPLES OF GRAPHENE SOLAR CELLS
- 6. GRAPHENE NANOCOMPOSITES FOR LITHIUM ION BATTERIES
- 7. GRAPHENE NANOCOMPOSITES FOR SUPERCAPACITORS
- 8. GRAPHENE NANOCOMPOSITES FOR ELECTROMAGNETIC INDUCTION
- 9. GRAPHENE NANOCOMPOSITES FOR ELECTRONIC DISCHARGE.