Carbon is not
the problem.
Emissions are.
Plasmetal uses electromagnetic plasma electrolysis to permanently split CO₂ into solid carbon and pure oxygen. This process can be retrofit to existing blast furnaces, recycling essential carbon back into the smelting cycle to achieve zero emissions.
Steel built civilisation.
Now it must be rebuilt.
Iron and steel production is one of the world's most carbon-intensive industries, responsible for nearly 3.5 billion tonnes of CO₂ every year. Conventional decarbonisation approaches — carbon capture and storage, hydrogen direct reduction, or CO₂ conversion to syngas — are either costly, incremental, or simply relocate the problem.
Plasmetal takes a fundamentally different stance: CO₂ is not a waste gas to be managed. It is a feedstock to be transformed. Our patented electromagnetic plasma technology dissociates CO₂ directly into its atomic constituents — solid carbon and oxygen — both of which have significant commercial value. The carbon is gone from the atmosphere. Permanently.
See how it works →
Permanent Carbon Recovery
Unlike carbon capture & storage (CCS), which compresses and buries CO₂ hoping it stays underground indefinitely, plasma electrolysis converts CO₂ into solid elemental carbon — a stable, commercially valuable material that is permanently removed from the carbon cycle.
Dual Value Creation
Every molecule of CO₂ processed yields two sellable products: high-purity solid carbon (used in electrodes, composites, and materials) and pure oxygen for industrial processes. The revenue from these offsets the operational cost — making green steel economically viable.
Renewable-Ready Process
The electromagnetic plasma is powered entirely by electricity. As renewable energy from solar and wind becomes the cheapest form of generation globally, the Plasmetal process becomes progressively cheaper — coupling the cost curves of clean energy to green steel.