FlexiH Synthetic Graphite is a premium-grade conductive carbon co-produced alongside clean hydrogen using FlexiH’s proprietary electrodeless plasma process. It delivers battery-grade performance with over 90% structural equivalence to Super-P, lower CO₂ emissions, and a fully traceable U.S. supply chain for lithium-ion battery manufacturing.
Delivering high conductivity for lithium-ion battery electrodes.
Supporting resilient U.S. battery supply chains.
Approximately 66% lower CO₂ emissions than conventional carbon black.
Supporting next-generation battery manufacturing with premium conductive carbon and a secure domestic supply.
Battery Performance
High conductivity comparable to Super-P for lithium-ion batteries.
Domestic Supply
Reducing dependence on imported conductive carbon.
Lower Carbon Emissions
Approximately 66% lower CO₂ emissions than conventional carbon black.
Scalable Production
Co-produced alongside clean hydrogen through FlexiH's modular platform.
Conductive additive for NCM and LFP cathodes.
Supporting large-scale EV battery production.
Enhancing conductivity and mitigating volume expansion.
Reliable conductive carbon fo r stationary battery applications.
FlexiH Synthetic Graphite delivers battery-grade conductive carbon with verified Super-P equivalence, supporting secure domestic supply and scalable production for lithium-ion battery manufacturing.
| Property | Synthetic Graphite | Super-P |
|---|---|---|
| Purity | Battery Grade | Battery Grade |
| Ash Content | <0.1% | <0.1% |
| Carbon Structure | Turbostratic | Turbostratic |
| Performance | >90% Equivalent | Benchmark |
| CO₂ Footprint | ~66% Lower | Standard |
| Origin | U.S. Manufactured | Primarily China |
Battery Grade
>90% Super-P Equivalent
<0.1% Ash Content
~66% Lower CO₂
FlexiH Synthetic Graphite is a battery-grade conductive carbon co-produced alongside clean hydrogen using FlexiH's proprietary electrodeless plasma process. It offers over 90% structural equivalence to Super-P with ultra-low ash content below 0.1%.
It is designed as a conductive additive for lithium-ion battery cathodes (NCM/LFP), high-silicon anodes, EV batteries, gigafactories, and energy storage systems.
Synthetic Graphite has approximately 66% lower CO₂ emissions than conventional carbon black and is co-produced alongside clean hydrogen without additional feedstock or energy input.
Yes. It is designed as a direct substitution candidate for Super-P and is supported by technical data packages, reference samples, and qualification testing for battery manufacturers.
Connect with FlexiH to explore battery-grade synthetic graphite for your supply chain.
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