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EnvalyxPrecision upcycling

Applications

Targeting industrial plastic waste streams where conventional recycling technologies prove ineffective or economically unviable.

Focus areas

Where Envalyx creates value

Each pathway is co-designed with partners to respect existing collection and processing infrastructure while producing specification-ready intermediates.

PA-6/PA-66

Feedstock: Automotive components, e-mobility housings, industrial textiles.

Today: Often landfilled or downcycled due to glass fiber reinforcement, high crystallinity, and thermal sensitivity.

Envalyx pathway: Engineered enzymes selectively cleave amide bonds under mild aqueous conditions to recover monomers suitable for repolymerization (target).

Target products

  • Adipic acid for PA-6/PA-66 synthesis
  • Hexamethylenediamine (HMDA)
  • Repolymerization feedstock (target)

What we need from partners

  • Feedstock format (flakes, foam, film)
  • Known additives & contaminants
  • Estimated annual tonnage range
  • Geography + timeline
Discuss PA-66 feedstock

Economics shared with partners upon request

PA-66 polymer structure showing adipic acid and HMDA units with amide bond cleavage by amidase enzymes

Indicative figures only; detailed sources and economics shared on request.

Polyurethane foams

Feedstock: Post-consumer mattresses, appliance insulation, flexible manufacturing scrap.

Today: Often landfilled or incinerated. Thermal recycling degrades polyol quality.

Envalyx pathway: Engineered enzymes cleave urethane linkages (–O–CO–NH–) to release polyols, amines, and CO₂ under mild aqueous conditions.

Target products

  • Polyols suitable for polyurethane manufacturing (target)
  • Recovered amines for chemical use

Quality outcome: Targets molecular-weight retention for reuse

What we need from partners

  • Feedstock format (flakes, foam, film)
  • Known additives & contaminants
  • Estimated annual tonnage range
  • Geography + timeline
Discuss PU foam pilot

Economics shared with partners upon request

Polyurethane foam cellular structure showing urethane bond chemistry and enzymatic hydrolysis to polyols and amines

Indicative figures only; detailed sources and economics shared on request.

Multilayer films & complex packaging

Feedstock: Barrier films, pouches, and laminates with PA, EVOH, PET, and PE layers.

Today: Multiple incompatible layers with different melting points. Adhesives contaminate mechanical recycling streams.

Envalyx pathway: Sequential enzyme targeting enables layer-by-layer depolymerization, producing clean streams per polymer type.

Target products

  • PA monomers (adipic acid + HMDA)
  • PET monomers (TPA + EG)
  • EVOH fraction (recovered feedstock)
  • Separated PE for mechanical recycling

What we need from partners

  • Feedstock format (flakes, foam, film)
  • Known additives & contaminants
  • Estimated annual tonnage range
  • Geography + timeline
Discuss multilayer separation

Economics shared with partners upon request

Cross-section of multilayer barrier film showing PE, PA, EVOH, and PET layers with recovered products per layer

Indicative figures only; detailed sources and economics shared on request.