Technology at Stathmos

At Stathmos, we have developed a cutting-edge proprietary sorbent material that revolutionizes how CO₂ is captured directly from ambient air. Designed as a high-selectivity molecular sieve, this material uses an advanced chemisorption mechanism to bind CO₂ molecules at the molecular level while allowing other gases, such as nitrogen and oxygen, to pass through freely. This innovation in material science enables unparalleled efficiency and represents a major leap forward in scalable and energy-efficient carbon removal technologies.

Integrated into our modular Statbox systems, this sorbent material powers a revolutionary approach to Direct Air Capture (DAC). Each Statbox is engineered to capture up to 1,000 tonnes of CO₂ annually, operating through a continuous adsorption-desorption cycle. By utilizing low-grade thermal energy (below 100°C) and renewable electricity from on-site sources like solar panels and wind turbines, the Statbox minimizes energy inputs while maintaining exceptional performance. During the regeneration process, concentrated CO₂ is released, ready for use in downstream applications or safe storage.

The Statbox Advantage

The Statbox system revolutionizes carbon capture, combining energy efficiency, sustainability, and industrial adaptability. Unlike conventional technologies, the Statbox:

  • Produces no harmful byproducts, ensuring clean and sustainable operations.
  • Reduces logistical emissions with its modular design, allowing direct deployment at emission sources or storage facilities.
  • Supports dual-purpose solutions, enabling industries to store captured CO₂ permanently or utilize it to produce clean water.

This versatility addresses industrial and environmental challenges, making the Statbox a transformative tool for achieving global climate and resource sustainability goals.

Sustainable Technology for a Greener Future

Our proprietary technology embodies sustainable engineering, leveraging renewable energy and low-temperature heat to make the DAC process both cost-effective and eco-friendly. Scalable and efficient, it addresses the urgent global need for effective carbon removal, supporting industries in their transition to a carbon-neutral economy.

Whether used for permanent storage or as a resource for innovative applications, Stathmos delivers advanced solutions to manage carbon emissions. By integrating cutting-edge material science with sustainability, we empower industries and communities to take meaningful steps toward a cleaner and greener future.

Carbon Capture for Credits and Climate

Statbox units are deployed in clusters at geological storage sites, enabling the permanent removal of CO₂ from the atmosphere. Captured CO₂ is securely stored deep underground, isolated for centuries, significantly reducing atmospheric greenhouse gas levels.

This technology also supports the carbon credit market, with each tonne of CO₂ stored representing a verified credit, providing industries with measurable tools to achieve net-zero goals. By incentivizing sustainable practices, Statbox fosters the growth of a low-carbon economy that aligns industrial progress with global climate targets.

Through innovative engineering and ecological responsibility, Stathmos empowers industries to meet their climate commitments, driving progress toward a cleaner, more sustainable future.

Capturing CO₂ for Industry and Innovation

On industrial sites, Statbox systems capture CO₂ directly from the atmosphere, eliminating the need for transportation and significantly cutting associated emissions. This localized approach provides industries with an efficient, cost-effective, and sustainable way to reduce their carbon footprint.

Captured CO₂ is transformed into a valuable resource, powering applications such as chemical manufacturing, carbonated beverages, and other industrial processes. By repurposing CO₂, Statbox enables industries to transition to sustainable practices without compromising operational performance.

By integrating Statbox technology, industries benefit from a renewable and local CO₂ source, reducing reliance on emission-heavy supply chains. This innovation drives the shift toward a circular carbon economy, where CO₂ becomes a key element of sustainability and industrial progress.