Graphene Nanoplatelet, Purity: 99.9+%, Size: 6 nm, S.A: 150 m2/g, Dia: 20 μm

Description

Graphene Nanoplatelet, Purity: 99.9+%, Size: 6 nm, S.A: 150 m2/g, Dia: 20 μm

Graphene nanoplatelets are multi-layered graphene structures consisting of stacks of hexagonally bonded carbon atoms arranged in a flat, two-dimensional configuration. This version of graphene nanoplatelets features an average thickness of 6 nanometers and a lateral diameter of 20 microns, offering a specific surface area of 150 m²/g. Their structure enables them to form conductive networks and mechanically reinforce host materials even at low loadings.

These platelets are known for their high electrical and thermal conductivity, chemical stability, and excellent barrier properties, making them highly suitable for advanced composite and coating formulations. Their larger lateral size contributes to improved mechanical load transfer and dimensional control within polymeric and elastomeric systems.

Thanks to their pure graphitic nature, these nanoplatelets can be functionalized at the edges to allow halogen or covalent bonding, enhancing compatibility with resins, rubbers, and industrial coatings. They can be dispersed into water, solvents, or polymer systems with proper processing, replacing conventional and nanoscale additives while delivering a broader range of material performance.

Their multifunctional profile enables cost-effective performance upgrades across industries, particularly where mechanical integrity, electrical conductivity, and lightweight performance are required.

Technical Specifications

Application Areas

• Thermoset and thermoplastic composites

• Rubber and elastomer formulations

• High-performance adhesives and industrial sealants

• Conductive coatings and EMI shielding systems

• Paints with mechanical reinforcement and thermal management

• Battery and supercapacitor electrodes

• Barrier films and packaging technologies

• Lightweight automotive and aerospace structures

• Functional fillers in flexible electronics

• Printable inks and antistatic coatings

This grade of graphene nanoplatelet is ideal for applications requiring reinforcement, conductivity, and process efficiency in a broad range of material systems. Its optimized size and composition allow for enhanced performance without compromising weight or flexibility.