Graphene 3D Lab, Inc.

Materials

Graphene Foam flexes with product and fits into any space.

Available in virtually any shape or size, Graphene Flex Foam combines highly conductive 3D Chemical Vapor Disposition ultra-light graphene foam and conductive elastomer composite. Multilayer, freestanding product is suited for electrodes of lithium-ion batteries used in wearable electronics that require flexibility. Foam also offers energy storage as well as catalyst support in numerous organic...

Read More »
Materials

Graphene Foam flexes with product and fits into any space.

Available in virtually any shape or size, Graphene Flex Foam combines highly conductive 3D Chemical Vapor Disposition ultra-light graphene foam and conductive elastomer composite. Multilayer, freestanding product is suited for electrodes of lithium-ion batteries used in wearable electronics that require flexibility. Foam also offers energy storage as well as catalyst support in numerous organic...

Read More »
Materials

Graphene Foam flexes with product and fits into any space.

Available in virtually any shape or size, Graphene Flex Foam combines highly conductive 3D Chemical Vapor Disposition ultra-light graphene foam and conductive elastomer composite. Multilayer, freestanding product is suited for electrodes of lithium-ion batteries used in wearable electronics that require flexibility. Foam also offers energy storage as well as catalyst support in numerous organic...

Read More »
Materials

Graphene Foam flexes with product and fits into any space.

Available in virtually any shape or size, Graphene Flex Foam combines highly conductive 3D Chemical Vapor Disposition ultra-light graphene foam and conductive elastomer composite. Multilayer, freestanding product is suited for electrodes of lithium-ion batteries used in wearable electronics that require flexibility. Foam also offers energy storage as well as catalyst support in numerous organic...

Read More »

All Topics