Description
NH2 Functionalized Graphene Nanoplatelets
Our NH2 Functionalized Graphene Nanoplatelets consist of small stacks of graphene that can replace carbon fiber, carbon nanotubes, nano-clays, or other compounds in many composite applications. When added in trace amounts to plastics or resins, our amine graphene nanoplatelets make these materials electrically or thermally conductive and less permeable to gasses, while simultaneously improving mechanical properties like strength, stiffness, or surface toughness. They are useful as nanoscale additives for advanced composites, as a component in advanced batteries and ultra/super capacitors, as the conductive component in specialty coatings or adhesives, and as a component of e-inks or printable electronic circuits. Other applications include exceptionally strong and impermeable packaging, better lubricants, and a recent publication even demonstrates that our conductive graphene nano-platelets, surface-treated with sensitized molecules, can be used to produce highly sensitive bio-sensors.
Our GNPs consist of several sheets of graphene with an overall thickness of approximately 3-10 nanometers depending on the specific product. Grade 4 GNPs are friable to <4nm thick when exposed to high shear or sonication.
This product is produced by exfoliating natural graphite and is further purified and amine functionalized using a Dielectric Barrier Discharge process which provides greater control over the desired type & amount of functionality which produces an exfoliated product that is much easier to disperse in the host matrix.
NH2 Functionalized Graphene Nanoplatelets
Process Gas: Nitrogen
Primary Functionality: N=H
Other Functionalities: N-H, O=C-N-H2, C ≡N
Source Material: Natural Graphite
Form Supplied: Dry Powder
Packaging: Nano-suitable airtight container
A blend of primary, secondary, and tertiary amines.