: Used in high-performance lithium-ion batteries and supercapacitors to achieve faster charging and higher energy densities.
Graphene's unique 2D structure endows it with properties that defy conventional material limitations. Description
Approximately 100 times stronger than steel with a Young's modulus of ~1.0 TPa. High electron mobility (up to 200,000 ), making it a zero-bandgap semiconductor. Thermal Conductivity Extremely high values reaching ~5000 , superior to copper and diamond. Optical Transparency
: Targeted drug delivery, bio-imaging, and sensitive biosensors for disease detection.
: Lightweight, super-strong composites for ballistic protection and aircraft de-icing. Challenges and Future Outlook
: Used in high-performance lithium-ion batteries and supercapacitors to achieve faster charging and higher energy densities.
Graphene's unique 2D structure endows it with properties that defy conventional material limitations. Description Graphene Nanomaterials: Fabrication, Properties...
Approximately 100 times stronger than steel with a Young's modulus of ~1.0 TPa. High electron mobility (up to 200,000 ), making it a zero-bandgap semiconductor. Thermal Conductivity Extremely high values reaching ~5000 , superior to copper and diamond. Optical Transparency Graphene Nanomaterials: Fabrication, Properties...
: Targeted drug delivery, bio-imaging, and sensitive biosensors for disease detection. Graphene Nanomaterials: Fabrication, Properties...
: Lightweight, super-strong composites for ballistic protection and aircraft de-icing. Challenges and Future Outlook
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