Cut your graphene costs by up to 99.95%. Seven patent-pending exfoliation methods engineered to produce high-quality few-layer graphene with commodity reagents and standard equipment — no cleanroom, no Hummers method, no six-figure capital outlay. License one method or the full portfolio.
- 7 Proprietary Methods
- 5 USPTO Filings
- 2,000× Projected Savings
- $15B+ Market by 2031
Patent-Pending Graphene Production Methods
Each method independently targets graphite interlayer bonds through a different mechanism — supercritical fluids, electrochemistry, thermal spallation, cryofracture — giving licensees multiple production pathways and flexibility to optimize for yield, quality, and cost.
1. Sequential Supercritical Gas Intercalation
Sequential penetration with gases of increasing kinetic diameter followed by rapid depressurization for 400–800× gas expansion. Garage-scale adaptation with simultaneous N-doping.
2. CO₂ Snow Flash Thermal Spallation
Three simultaneous forces: c-axis thermal spallation from differential expansion, 800× CO₂ sublimation volume change, and micro-arc plasma discharge at edge defects. No pressure vessel needed.
3. Self-Decomposing Melt-Intercalant Cascade
Organic solids (oxalic acid, urea) melt into graphite galleries, then thermally self-destruct to generate triple-gas expansion in-situ. Projected cost: $0.05–0.10/gram — a projected 99.95% reduction.
4. Bicarbonate Electrochemical Exfoliation
HCO₃⁻ decomposes at the graphite anode to generate CO₂ within 3.35Å interlayer galleries. Self-buffering OH⁻ prevents the oxidative damage endemic to acidic methods.
5. Freeze-Pump-Thaw + Synergistic Combinations
Geological frost-wedging adapted to graphite via ice expansion cycling, plus 4 multi-vector combinations attacking interlayer bonds from orthogonal directions for synergistic yields.
6. Multi-Method Composable Platform
All 7 methods compose — outputs from one feed as optimized inputs to another. Built from cross-disciplinary insights spanning automotive catalysis, geophysics, and pyrometallurgy.
Licensing Options
Academic License (Research)
Non-exclusive access for university and institutional R&D. Single method or full portfolio access, direct technical consultation, publication rights retained.
Production License (Commercial)
Exclusive or non-exclusive rights to manufacture and sell graphene using Carbonions methods. Field-of-use exclusivity, geographic territory rights, full technical transfer package, ongoing method improvements.
Strategic Partnership
Joint development for companies integrating methods into existing production. Co-development of custom methods, joint patent filing on improvements, integration engineering support.