ICELITH FA - Synthetic Pozzolan

ICELITH FA is a next-generation low-carbon mineral additive being developed to replace fly ash in European cement and concrete.

Produced from upcycled European minerals, it targets high reactivity, low chloride content, and consistent quality with a minimal environmental footprint.

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The material is in laboratory development, with early results indicating strong potential as a durable, low-CO₂ pozzolan. Pilot-scale testing with selected European partners is planned.

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The Fly-Ash Gap:

• EU-27 fly-ash generation has fallen from ~35 Mt/year (2010) to <12 Mt/year (2024).

• Coal phase-outs (Germany 2030, Poland ~2040, UK 2025) will end most supply by 2030.

• Less than 40 % of remaining ash meets EN 450-1 standards.

ICELITH REACT – CO₂ Reactive Mineral

ICELITH REACT is a next-generation CO₂-reactive mineral coating designed to capture and store carbon through natural mineral carbonation.

Developed from industrial by-products and recycled glass, it forms a synthetic calcium–silicate surface that reacts with atmospheric CO₂ to create stable carbonate minerals.

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Produced through a low-temperature, clean-energy process, ICELITH REACT combines durability, chemical stability, and carbon reactivity—making it suitable for use as a protective coating on lightweight aggregates, building materials, and turf systems.

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When exposed to air and moisture, its engineered surface begins to absorb and mineralize CO₂, permanently locking it into the material’s structure. This allows everyday infrastructure to function as a passive carbon sink, turning construction surfaces into part of the climate solution.

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ICELITH REACT is currently under laboratory development, with pilot-scale testing planned to quantify its carbon uptake capacity, durability, and long-term performance in real-world conditions.

ICELITH SCM – Low-Carbon Cement Replacement

ICELITH SCM is a new supplementary cementitious material being developed to partially replace Portland cement in concrete while maintaining strength and durability.

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Designed for use in blended and low-clinker concretes, ICELITH SCM targets a significant reduction in CO₂ emissions without compromising performance.

Laboratory development has shown promising reactivity and compatibility with standard mix designs, and pilot-scale testing is planned with selected European partners.

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ICELITH SCM represents a key step toward a new generation of circular, low-carbon binders for sustainable construction in Europe.​

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ICELITH SOIL – Enhanced Weathering Mineral

ICELITH SOIL is a synthetic calcium–silicate mineral designed to accelerate natural CO₂ capture and improve soil health through the process of enhanced weathering.

Developed from upcycled industrial by-products and recycled glass, it provides a controlled, reactive source of calcium and plant-available silicon essential for crop resilience, nutrient uptake, and root development.

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When applied to soil or hydroponic systems, ICELITH SOIL gradually dissolves, binding atmospheric CO₂ into stable carbonate minerals while enriching the soil with beneficial elements. This creates a dual climate and agronomic benefit—carbon sequestration and soil regeneration.

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Produced using a low-temperature, clean-energy process, ICELITH SOIL represents a new pathway for climate-positive agriculture, helping to reduce fertilizer dependence, replace imported limestone, and strengthen the foundation for circular, carbon-removing farming systems.

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