Laser induced incorporation of CNTs in graphene electrodes improves flexibility and conductivity

Keyphrases

• Laser-induced 100%
• Specific Capacitance 100%
• Graphene Electrodes 100%
• CO2 Laser 50%
• Fold Increase 50%
• Chemical Analysis 50%
• Nanomaterials 50%
• Structural Integrity 50%
• Microstructural Analysis 50%
• Reduced Graphene Oxide 50%
• Structural Integration 50%
• Induced Production 50%
• Costing Methods 50%
• Composite Formation 50%
• Nanocarbon Film 50%
• Conductivity Retention 50%
• Flexible Electrode 50%
• Laser Processing 50%
• Carbon-based Electrodes 50%
• Carbon Nanotube Composites 50%
• Flexible Supercapacitor 50%
• Flexible Substrate 50%

Engineering

• Nanomaterial 100%
• Graphene 100%
• Conductive 100%
• Supercapacitor 100%
• Structural Integrity 100%
• Broad Range 100%
• Flexible Substrate 100%
• Reduced Graphene Oxide 100%
• Fold Increase 100%
• Carbon Nanotube 100%
• Laser Processing 100%
• Flexible Electrode 100%

Material Science

• Graphene 100%
• Composite Material 100%
• Film 50%
• Capacitance 50%
• Carbon Dioxide 25%
• Supercapacitors 25%
• Carbon Nanotube 25%
• Reduced Graphene Oxide 25%
• Nanostructured Material 25%