Graphene batteries would make smartphones thinner or offer more battery capacity while keeping their current proportions

Due to the various unique properties, graphene and materials derived from graphene have been exhibiting great potential in the field of energy storage for supercapacitors, fuel cells, hydrogen storage, and batteries in various forms like lithium-ion, sodium-ion, lithium-air, and lithium-sulfur batteries.
Current Li-ion batteries have a long charge time and short lifespan and use unstable and dangerous chemistries. Graphene increases the efficiency of batteries, improves the power capability, and allows faster charge times.


GUP® DP BAT-W is a conductive paste to use in lithium-ion battery aqueous binder formulations.


GUP® DP PEDOTT:PSS is a conductive paste of few-layer graphene GUP® combined with PEDOTT:PSS to serve as an effective binder or conductor that’s putting it on the map in the field of battery engineering.

Main Advantages of GUP® Products for Batteries & Supercapacitors

Adhesive Strength

GUP improves tensile strength nd  offers structural reinforcement to electrodes, thereby enhancing the mechanical integrity of the energy storage device

Corrosion Resistance

graphene layers offer remarkable corrosion resistance due to their impermeability and provides excellent protection against a wide range of chemicals

Heat Dissipation

graphene  can regulate temperature due to graphene’s exceptional thermal conductivity



Antistatic / ESD

graphene in coatings can facilitate electrical conduction, useful in various applications (Ex Proof areas, EMI Shielding)



graphene-based paints and coatings exhibit superior durability, resisting physical wear and environmental degradation

Oxygen/Gas Barrier

graphene can significantly enhance the barrier properties of coatings, providing resistance against water, gases, and other invasive materials


Electrical Conductivity

GUP®‘s high electrical conductivity ensures efficient electron flow, thereby reducing internal resistance and enhancing the overall charge/discharge rates of batteries


anti-fouling properties of graphene coatings significantly reduce biofouling, curtailing the growth of harmful microorganisms 

Main Applications

Anodes & Cathodes of Lithium-Ion Batteries

Cathodes of Lithium-Sulphur Batteries

Anodes of Sodium-Ion Batteries

Solid Electrolytes of Solid State Batteries

Anodes & Cathodes of Mg Ion Batteries

Electrodes of Organic Batteries