Graphene Nanoplatelet, Purity: 99.9+%, Size: 6 nm, S.A: 150 m2/g, Dia: 30 μm

Description

Graphene Nanoplatelet, Purity: 99.9+%, Size: 6 nm, S.A: 150 m²/g, Dia: 30 μm

Graphene nanoplatelets are multi-layered graphene materials made up of stacked hexagonal carbon sheets, typically 5 to 20 layers thick. This specific grade features a lateral diameter of 30 microns and a thickness of approximately 6 nanometers, delivering a specific surface area of 150 m²/g. Thanks to their structure and composition, these platelet-shaped particles offer a combination of mechanical strength, thermal and electrical conductivity, and barrier performance.

Due to van der Waals forces, nanoplatelets tend to agglomerate, but they can be efficiently dispersed in water, solvents, or polymer systems using proper processing techniques. Their high surface area, planar shape, and graphitic structure allow for the creation of conductive and reinforcing networks even at low loading levels.

Edge functionalization enables covalent or halogen bonding, which improves compatibility with various resins and polymers. This makes them ideal for applications in high-performance composites, coatings, adhesives, and energy devices, where lightweight conductivity, barrier improvement, and flame retardancy are needed.

These graphene nanoplatelets can also reduce the need for complex lamination or multilayer films, simplifying manufacturing processes and lowering material costs while enhancing end-product functionality.

Technical Specifications

Application Areas

• Thermoset and thermoplastic composite materials

• Rubber and elastomer-based formulations

• Conductive and barrier-enhancing coatings

• EMI shielding systems and antistatic applications

• Paints and adhesives requiring mechanical enhancement

• Battery and supercapacitor electrodes

• Moisture- and gas-barrier films

• Lightweight structural components in automotive and aerospace

• Printable electronics and smart materials

• Cost-effective functional filler for industrial materials

This material is a robust and scalable choice for industries aiming to boost product performance while maintaining cost efficiency and process compatibility.