• Customizable Solutions

Customizable Graphene Solutions Create Infinite Possibilities

XG Sciences graphene nanoplates are created with our proprietary technology to provide specific solutions to solve each customer’s unique challenges for mechanical, electrical, thermal and barrier applications.

Concrete Solutions

A specially formulated graphene-enhanced concrete additive that strengthens bonds, achieves significant reductions in cracking, degradation and moisture absorption, resulting in prolonged structural life.

Thermal Interface Materials Solutions

Graphene-based thermal interface materials support high-performance electronics enabling greater power, performance and reliability for portable electronics that power today’s economy.

Graphene-Silicon Composites

Graphene-silicon composite material with highly conductive, flexible graphene platelets that provide robust mechanical support and improve high-rate capacity for lithium-ion high-energy battery anodes.

Graphene 3D Printing

A portfolio of advanced graphene-based 3D printing materials that offer leading-edge polymer level mechanical performance while providing superior barrier properties. Our proprietary formulations speed up cure rates and increase layer-to-layer strength.

Thin-sheet Graphene

A family of thin-sheet applications ranging from 3 to 240 microns. Each product can be custom formulated for specific attributes in electrical conductivity, thermal conductivity, resistant heating or higher electrical conductivity.

Graphene-infused Inks and Coatings

Conductive graphene-based inks and coatings for printed electronics, smart packaging, heat sink and RFID. Our conductive inks can be optimized for different curing and processing methods.

Let’s Get Started

XG Sciences produces graphene in various forms customizable to your manufacturing systems. These value-added substrates include liquid solutions (dispersions), master batches (composites) and graphene powders.

Contact us today to discuss the optimal graphene solution for your next project.