Technology
Advanced Graphene Production Equipment
We manufacture and supply cutting-edge machinery designed specifically for the scalable production, processing, and analysis of industrial-grade graphene materials.
- CVD Systems
High-precision Chemical Vapor Deposition (CVD) systems specifically engineered for growing high-quality monolayer graphene on copper and nickel substrates.
- Exfoliation Units
Industrial-scale liquid phase exfoliation systems designed for producing high-yield graphene nanoplatelets and conductive inks.
- Characterization Suite
Comprehensive analysis tools including Raman Spectroscopy, AFM, and SEM for precise quality control and material verification.
- Transfer Systems
Automated polymer-assisted transfer systems for clean, damage-free deposition of graphene onto arbitrary substrates.
- Pulsed Electrical resistive carbon conversion system
A scalable pulsed electrical carbon conversion technology that transforms carbon feedstocks into turbostratic graphene using rapid high-temperature electrical pulses in modular reactors.
Pulsed Electrical Carbon Conversion Technology
High-Yield Graphene Conversion Reactor
Advanced pulsed electrical reactor capable of converting 20 grams of carbon feedstock into high-purity turbostratic graphene in 20-second cycles using controlled high-temperature electrical pulses.
Experience the next generation of material synthesis with our automated Pulsed Electrical Resistive Carbon Conversion System. This industrial reactor uses precisely controlled high-temperature electrical pulses to rapidly convert carbon materials into turbostratic few-layer graphene without the use of chemical reagents. The system is engineered for reliability, repeatability, and scalable production.
Key Advantages:
- Rapid Production: Produces 20 g graphene batches in ~20-second cycles.
- Chemical-Free Process: Graphene is produced using high-temperature electrical conversion without solvents or chemical reagents.
- Energy Efficient: Electrical pulses deliver energy directly to the carbon feedstock for rapid conversion.
- Industrial Scalability: Modular reactor architecture allows parallel operation for large-scale production.
This technology enables scalable industrial graphene production, supporting applications in concrete reinforcement, advanced composites, coatings, energy storage, and conductive materials.
