Built for precision. Engineered for scale.
Our technology turns industrial emissions into monetizable resources through engineering rigor and breakthrough chemistry.
A Structural Shift
We replace high-cost legacy infrastructure with modular technology built for profitability.
Solid-state durability
We replace corrosive liquid chemicals with durable solid fibers. This shift results in lower maintenance and significantly reduced downtime.
Thermal efficiency
Our systems run on recycled low-grade waste heat rather than high electricity or steam. This eliminates the need for expensive new utility costs.
Rapid recovery
We utilize rapid one-minute capture cycles instead of slow, energy-intensive processes. This high-speed approach improves your overall project economics.
Modular deployment
Standardized add-on systems integrate with your equipment with no major retrofits. We avoid the permanent civil engineering required by legacy builds.
DCF-1: High-Performance Adsorbent
We developed DCF-1 as a next-generation material for superior carbon capture and global scalability.
Uses abundant zinc and citrate to ensure a cost-effective and globally available material source.
Features a patented green process using water as the sole solventunder ambient atmospheric pressure.
Delivers high capacity and selectivity with fast adsorption ratesand zero harmful emissions.
Structured Adsorbent Contactors
We shape our materials into specialized fibers through a computerized winding process to optimize gas interactions.
Our fabrication process achieves MOF loading above 80% for maximum capture efficiency.
The structured design ensures fast heat and mass transfer rates with a low pressure drop.
Our contactors are built as modular units to simplify installation and maintenance.
Fast Capture Cycles
Our fast swing adsorption process makes carbon capture profitable by reducing energy use and equipment costs.
Complete capture and regeneration cycles in as little as one minute to maximize recovery.
Uses only a fraction of the energy required by conventional capture methods.
Significantly reduces both CAPEX and OPEX to transform emissions into a profitable asset.
Flexible Energy Regeneration
Our technology uses low-cost heat or renewable power to regenerate capture cartridges, making the process economically viable.
Harnesses waste heat from flue gas, engines, and data centers or uses renewable electricity.
Utilizing low-cost energy sources ensures the capture process is environmentally and financially sustainable.
The ability to use existing on-site waste heat removes the needfor expensive utility upgrades.
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