Lithium-ion Batteries

    Lithium-ion Batteries: The conductive slurries based on graphene has significant advantages used for lithium-ion batteries. Graphene can improve the efficiency of the cathode of Li-ion batteries. It can also reduce the charge time of motive power battery from 2 hours to 10 minutes while being used in anode materials.

    Supercapacitors: Graphene can improve the energy density effectively. It might prolong the service life with fast charge and discharge.

    Solar Cells: Flexible photovoltaic panels covering with nano-graphene layer on its surface, can greatly reduce the cost of manufacture of transparent deformable solar cells.

    Mobile Phone Touch Screen: Touch screen made of graphene is environmentally safe. The cost would be much lower than the traditional screen made of indium tin oxide.

    High Strength Composite Materials: The carbon nanotubes show a much more stable property than polymers, though their structure is similar. Composite materials based on carbon nanotubes have high specific strength, good flexibility, fatigue resistance and excellent isotrophy.

    Environment Industry: Graphene is the thinnest but the hardest known nano materials with large specific surface area and excellent thermal conductivity. Because of its special properties, graphene can be used in catalytic materials, absorbing materials, filtering materials, electrode materials and some other environmental protection field.