Leveraging a groundbreaking Pre-Combustion Carbon Removal technology, the carbon generated by the ROTOBOOST TCD reactor is high-grade, pure graphitic carbon in the form of Graphene Nanoplatelets (GNPs)—an advanced material additive that can be utilized in various downstream applications such as batteries, tires, concrete, and metallurgy.
CARBON
What is ROTOBOOST Carbon Product?
Applications
A New Generation Premium Green Carbon,
More than Alternatives
ROTOBOOST
Graphene
Nanoplatelets
Born for NEXT GEN
Ultra-fast Charging Battery
Si-anode Battery
Solid-state Battery
New Generation Conductive Additives
Substituting few-layer graphene derived from natural graphite & a portion of CNTs
- Optimized production cost compared to commercially available GNPs
- Significant cradle-to-gate carbon emissions reduction compared to graphene products derived from natural graphite
- Comparable enhancement to that of few-layer graphene
Multifunctional Conductive Filler
Power battery casing
Electromagnetic Interference (EMI) Shielding
High Voltage Cable Semiconducting Shield Material
- Offer ultra-high purity and stability, making them ideal for demanding applications in medical, electronics, and automotive industries.
- Multi-performance enhancement by simultaneously improving electrical conductivity, mechanical strength, heat resistance, and barrier properties.
- Enhance processability and precision by reducing viscosity, minimizing warpage, and ensuring superior surface quality in final products.
Superior
Performance
to Meet the Demands of Various Specialized Scenarios
Marine Environments
Energy Harvesting
Road/Bridge De-icing
Electromagnetic Shielding
Additives for High-Performance & Green Concrete
- Enhanced mechanical properties
- Thermal/electrical conductivity
- Significantly lower cost than traditionally-produced graphene
- Dramatically reducing cradle-to-gate carbon footprint
Filler in
Composites
Tensile Strength
Tribological Performance
Heat Dissipation
Substituting carbon black for tire reinforcement additive
- Enhance mechanical and anti-aging properties
- Lower cost, better performance than recycled carbon black
- Rubber composite property enhancement on tensile strength, tribological performance and heat dissipation
- Cutting cradle-to-gate carbon footprint at scale
Facilitating EAF Steelmaking and Green Aluminum Production
Substituting coal & coke for graphite electrode and pre-baked anode
- Ultra high purity
- 3X richer surface micro-structure
- 2X more conductive
Binder Admixture
Aging Resistance
Electrical Conductivity
High-Temperature Rutting Resistance
Partial replacement of the asphalt in pavement
- Enhance high temperature stability and anti-aging property
- Thermal/electrical conductivity
- Effective carbon sequestration with 20% of replacement
Related News
Baowu—World’s Largest Steelmaker—Teams with ROTOBOOST to Industrialize Natural Gas Splitting for Green Steel at Scale
Government-sponsored BF–MOST (Business Finland × China MOST) China–Finland project to deliver on-site low-carbon hydrogen and high-value solid carbon for steel and aluminum—enabling true industrial decarbonization and value creation.
ROTOBOOST Awarded World’s First TÜV SÜD Certification for Low-Carbon Hydrogen and Carbon Products via Methane Pyrolysis
June 6, ROTOBOOST has become the world’s first company in the methane pyrolysis field to receive TÜV SÜD’s certification for the full lifecycle carbon footprint of hydrogen and carbon products.