Graphene Nanoplatelet, Purity: 99.9%, Size: 5 nm, S.A: 850m2/g, Dia: 5 μm

Description

Graphene Nanoplatelet, Purity: 99.9%, Size: 5 nm, S.A: 850 m²/g, Dia: 5 μm

Graphene nanoplatelets (GNPs) are multi-layer graphene particles with a platelet-like shape and nanoscale thickness. Composed of stacked graphene layers, they offer a lateral diameter of approximately 5 microns and an average thickness of 5 nanometers. This unique structure delivers a high surface area of 850 m²/g, enabling excellent performance in both structural and functional applications.

Owing to their pure graphitic composition, GNPs provide exceptional thermal and electrical conductivity, while also improving mechanical strength, barrier resistance, and dimensional stability in composite systems. Even at low loading levels, they form effective conductive networks, making them highly efficient additives for a variety of industries.

With edge-functionalizable surfaces, graphene nanoplatelets can be dispersed into polymers, solvents, and adhesives, enhancing compatibility and processing. They are widely utilized in applications where weight reduction, enhanced conductivity, and multi-functionality are critical—such as energy storage, electronics, automotive materials, and protective coatings.

Technical Specifications

Application Areas

• Thermoplastic and thermoset composites

• Rubber and elastomer formulations

• Conductive adhesives and sealants

• EMI shielding and antistatic coatings

• Battery and supercapacitor electrodes

• Industrial paints with thermal/electrical conductivity

• Barrier films and packaging materials

• Lightweight automotive and aerospace composites

• Printable electronics and flexible circuits

• Smart functional coatings across various industries

Graphene nanoplatelets offer a cost-effective path to upgrading the performance of advanced materials. Their multifunctionality, combined with excellent scalability, makes them an essential nanomaterial for next-generation engineering and product design.