High-Electrical Conductivity Graphene
Product Properties
High-Electrical Conductivity Graphene
Layers: <10
Scale: 0.06-0.12 um
SSA: 150-200m2/g
Ash: <1 wt%
Selling State: Grey-black Powder
Scale: 0.06-0.12 um
SSA: 150-200m2/g
Ash: <1 wt%
Selling State: Grey-black Powder
Preparation Method: Plasma
High-Electrical Conductivity Graphene
Layers: <3
Layers: <3
Purity: >98
Scale: 1-5 um
SSA: 50-80m2/g
Ash: <1 wt%
Scale: 1-5 um
SSA: 50-80m2/g
Ash: <1 wt%
Volume Resistivity: 600-800 µΩ•m
Carbon Content: >98 wt%
Oxygen Content: <2 wt%
Selling State: Grey-black Powder
Selling State: Grey-black Powder
Preparation Method: Chemical Reduction-oxidation
High-Electrical Conductivity Graphene
Layers: <3
Layers: <3
Purity: >98
Scale: 8-15 um
SSA: 70-110 m2/g
Ash: <1 wt%
Scale: 8-15 um
SSA: 70-110 m2/g
Ash: <1 wt%
Volume Resistivity: 600-800 µΩ•m
Carbon Content: >98 wt%
Oxygen Content: <2 wt%
Selling State: Grey-black Powder
Selling State: Grey-black Powder
Preparation Method: Chemical Reduction-oxidation
High-Electrical Conductivity Graphene
Layers: <3
Layers: <3
Purity: >98
Scale: >50 um
SSA: 110-170 m2/g
Ash: <1 wt%
Scale: >50 um
SSA: 110-170 m2/g
Ash: <1 wt%
Volume Resistivity: 600-800 µΩ•m
Carbon Content: >98 wt%
Oxygen Content: <2 wt%
Selling State: Grey-black Powder
Selling State: Grey-black Powder
Preparation Method: Chemical Reduction-oxidation
Graphene’s electron mobility is one of the highest of any known material, allowing electrons to move through it with minimal resistance. This high mobility contributes to its exceptional electrical conductivity, enabling fast electronic response times.In graphene, electrons can travel sub-micrometer distances without scattering, almost at ballistic transport levels. This property is crucial for high-speed electronic devices, as it allows for rapid signal transmission.In graphene, electrons can travel sub-micrometer distances without scattering, almost at ballistic transport levels. This property is crucial for high-speed electronic devices, as it allows for rapid signal transmission.Graphene’s high thermal conductivity is essential for dissipating heat in electronic devices, preventing overheating and allowing devices to operate at higher speeds or power levels.Despite its thinness, graphene is incredibly strong and flexible, which is beneficial for creating durable and flexible electronic components and devices.