Carbon-Negative.
Performance-Positive.
Lignity engineers nature's toughest polymer for high-performance industrial applications. We bridge the gap between biological sustainability and synthetic durability.
The Source
Sustainable Feedstock,
No Food Competition.
Unlike first-generation bioplastics derived from corn or sugar cane, Lignity materials are sourced exclusively from lignin—the structural binder in plants. We utilize certified forestry by-products and agricultural residue, ensuring our supply chain never competes with global food production.
- check_circleFSC Certified SourcesTraceable supply chain from sustainable forests.
- check_circle98% Carbon EfficiencyOur extraction process utilises nearly all biomass input.
Core Technology
Catalytic Depolymerisation
Our proprietary process deconstructs the complex lignin polymer into functional monomers, then reconstructs them into high-performance resins tailored for specific industrial needs.
Raw Biomass
Lignocellulosic residue from pulp and paper mills.
Fractionation
Solvent-based separation of lignin from hemicellulose.
Functionalisation
Chemical modification to enhance thermal stability.
Lignity Resin™
Thermoplastic granules ready for injection molding.
Metrics
Benchmarking
Performance
Lignity resins are engineered to match or exceed the mechanical properties of fossil-based ABS and Polypropylene, offering a drop-in solution for manufacturers.
arrow_downwardvs. Virgin ABS (+3.5)
Certified TUV Austria OK Compost
Designed for Circularity
Lignity materials are designed with the end in mind. They can be mechanically recycled within existing streams or industrially composted, returning nutrients to the soil and closing the carbon loop.
- recyclingRecyclable with Polyolefins
- ecoNon-toxic Decomposition
Ready to transform your supply chain?
Join the leading automotive and industrial manufacturers switching to Lignity's high-performance bio-materials.