Karbonite® is a next-generation mineral-based
construction material platform engineered for reduced
clinker dependency, lower process energy requirements
and future carbon incorporation pathways.
Karbonite® is a next-generation mineral-based construction material platform engineered for reduced clinker dependency, lower process energy requirements and future carbon incorporation pathways.
Karbonite® is being developed as a next-generation supplementary
cementitious material (SCM) designed to support lower-impact
construction applications through advanced mineral systems and
scalable industrial integration.
The material is focused on reducing reliance on conventional cement pathways while supporting long-term construction performance and
future materials innovation.
Karbonite® is being developed as a next-generation supplementary cementitious material (SCM) designed to support lower-impact construction applications through advanced mineral systems and scalable industrial integration.
The material is focused on reducing reliance on conventional cement pathways while supporting long-term construction performance and future materials innovation.
Karbonite®i is being developed as a next-generation supplementary
cementitious material (SCM) designed to support lower-impact
construction applications through advanced mineral systems and
scalable industrial integration.
The material is focused on reducing reliance on conventional cement
pathways while supporting long-term construction performance and
future materials innovation.
Developed to reduce reliance on conventional clinker-intensive
cement systems.
Developed to reduce reliance on conventional clinker-intensive cement systems.

Engineered around lower thermal activation pathways and improved material efficiency.
Designed to support circular
material systems through industrial
by-products and alternative feedstocks.
Designed to support circular material systems through industrial by-products and alternative feedstocks.
Being advanced with long-term carbon incorporation potential
through materials engineering and mineral carbonation.
Being advanced with long-term carbon incorporation potential through materials engineering and mineral carbonation.
Built around advanced mineral systems, industrial process
development and scalable deployment thinking.
Karbonite® is being developed to support lower-impact
construction through reduced clinker dependency, lower
thermal energy requirements and future carbon
incorporation pathways.
Karbonite® is being developed to support lower-impact construction through reduced clinker dependency, lower thermal energy requirements and future carbon incorporation pathways.
Current laboratory validation based on 50/50 Karbonite®
formulations.
Current laboratory validation based on 50/50 Karbonite® formulations.
Compared to conventional cement production pathways.
Reduced process emissions through lower clinker
dependency and process optimization.
Future carbon incorporation pathways through mineral
carbonation potential.
Future carbon incorporation pathways through mineral carbonation potential.
Engineered to support circular material systems through
industrial by-products and alternative feedstocks.

Karbonite® is being developed for integration into scalable
construction applications where lower-impact material systems and
industrial compatibility are critical.
Current development pathways are focused on practical deployment
scenarios capable of supporting future industrial adoption.
Karbonite® is being developed for integration into scalable construction applications where lower-impact material systems and industrial compatibility are critical.
Current development pathways are focused on practical deployment scenarios capable of supporting future industrial adoption.
Material systems designed
for scalable precast
manufacturing applications.
Focused on durable lower-
impact applications across
urban and infrastructure
environments.
Future pathways exploring
broader structural
construction integration.
Designed around
compatibility with scalable
production and industrial
deployment systems.
Continuous R&D focused on
future formulations and
expanded application
pathways.
Material systems designed for scalable precast manufacturing applications.
Focused on durable lower-impact applications across urban and infrastructure environments.
Future pathways exploring broader structural construction integration.
Designed around compatibility with scalable production and industrial deployment systems.
Continuous R&D focused on future formulations and expanded application pathways.
Karbonite® is engineered to support the next generation of construction
through practical, industrial and future-focused material pathways.
Karbonite® is engineered to support the next generation of construction through practical, industrial and future-focused material pathways.
Karbonite® is engineered to support the next generation of construction through practical, industrial and future-focused material pathways.
INDUSTRIAL DEPLOYMENT

KarbonX is advancing toward pilot-scale industrial deployment designed to
bridge laboratory validation and real-world manufacturing integration.
The planned pilot facility in Rustavi, Georgia is intended to support process
optimization, material validation and early-stage commercial production
pathways within a strategically positioned industrial region.

Strategically positioned for industrial manufacturing, logistics
access and future regional deployment opportunities.

Establishing pilot-scale
manufacturing to bridge
research and real-world
production.

Establishing pilot-scale manufacturing to bridge research and real-world production.

Advancing industrial
processing and operational
efficiency.

Advancing industrial processing and operational efficiency.

Supporting continuous
testing under scalable
manufacturing conditions.

Supporting continuous testing under scalable manufacturing conditions.

Building pathways toward
future construction market
integration.

Building pathways toward future construction market integration.

Designed to support future
production expansion and
regional deployment
opportunities.

Designed to support future production expansion and regional deployment opportunities.

Establishing pilot-scale manufacturing to bridge research and real-world production.

Advancing industrial processing and operational efficiency.

Supporting continuous testing under scalable manufacturing conditions.

Building pathways toward future construction market integration.

Designed to support future production expansion and regional deployment opportunities.
THE ROAD AHEAD

Building within the TUM Venture Labs ChemSPACE ecosystem, KarbonX is continuing
to advance Karbonite® through ongoing materials research, formulation development
and industrial process optimization focused on increasing material performance and
reducing dependence on conventional clinker systems over time.
Future development pathways include exploration of higher Karbonite® ratios,
alternative feedstocks and long-term clinker-free material systems.
Building within the TUM Venture Labs ChemSPACE ecosystem, KarbonX is continuing to advance Karbonite® through ongoing materials research, formulation development and industrial process optimization focused on increasing material performance and reducing dependence on conventional clinker systems over time.
Future development pathways include exploration of higher Karbonite® ratios, alternative feedstocks and long-term clinker-free material systems.
50/50 Karbonite® and conventional
cement formulations.
Continuous formulation refinement
and process development.
Exploration of higher Karbonite®
ratios and expanded material
pathways.
Pilot-scale deployment and
manufacturing pathway development.
Long-term ambition toward clinker-
free construction material systems.
LET’S BUILD WHAT COMES NEXT

Karbonite® represents a new class of mineral-based construction
materials engineered for lower impact and industrial scalability.
We are building the foundation for a more sustainable future—
together with partners who share our vision.
Karbonite® represents a new class of mineral-based construction materials engineered for lower impact and industrial calability.
We are building the foundation for a more sustainable future—together with partners who share our vision.