Ridgehart Graphene Nanoplates (3–10 nm Thickness) – High-Purity, High-Conductivity Carbon Nanomaterials

Ridgehart Graphene Nanoplates are ultra-thin, high-purity graphene sheets engineered for advanced composite reinforcement, conductive materials, and high-performance industrial formulations. With a thickness of 3–10 nm, lateral diameters of 5–10 μm, high purity at 99.5%, and excellent conductivity up to 1000 S/cm, these graphene nanoplates deliver exceptional strength, flexibility, and multifunctional performance across a wide range of engineering applications.

Technical Specifications:

Structural & Physical Properties:

• Thickness: 3–10 nm
• Lateral Diameter: 5–10 μm
• Purity: 99.5%
• Electrical Conductivity: 500–1000 S/cm
• Surface Area: 31.657 m²/g
• Tap Density: 0.075 g/cm³
• Apparent Density: 0.050 g/cm³

Characterization Methods:

• SEM imaging (surface morphology)
• TEM imaging (layer structure)
  

Material Characteristics:

• High Electrical Conductivity (500–1000 S/cm): Ideal for conductive coatings, battery additives, antistatic materials, and polymer composites where efficient charge transport is required.
• Ultra-Thin Graphene Sheets (3–10 nm): The nanometre-level thickness provides high flexibility, rapid electron mobility, and excellent reinforcement characteristics.
• Large Lateral Dimensions (5–10 μm): Ensures strong mechanical bridging effects, improving tensile strength and stiffness in composite formulations. 
• High Surface Area (31.657 m²/g): Offers excellent interaction with polymers, metals, ceramics, and chemical functionalization routes.
• Low Density, High Performance: The low tap and apparent density values enhance dispersion, making these nanoplates effective even at low loadings.

Key Advantages:

• Improves tensile strength, stiffness & mechanical durability
• Enhances corrosion resistance and wear resistance in composites
• Strong antistatic and conductive performance
• Excellent lubricating properties
• High purity ensures consistent performance in research and industrial production

Storage Conditions:

• Store sealed, in a dry, cool, and light-protected environment
• Maximum recommended shelf life (unopened): 6 months

Application Uses:

• Composite Reinforcement: Enhances mechanical strength, stiffness, abrasion resistance, and durability in polymers, thermoplastics, epoxies, and ceramic composites. 
• Conductive & Antistatic Materials: Used in conductive coatings, antistatic plastics, EMI shielding, and high-conductivity adhesives.
• Lubricants & Wear-Resistant Additives: Graphene’s layered structure provides excellent lubrication properties and reduces friction in industrial formulations.
• Corrosion-Resistant Systems: Improves chemical resistance and extends lifespan of coatings and surface treatments.
• Energy & Electronics: Useful for electrodes, supercapacitors, battery additives, sensor devices, and hybrid nanocarbon systems.