March 16, 2026
Dear Partner,
We hope this message finds you well.
Across the global plastics and packaging industries, the challenge of managing polymer materials at end-of-life continues to grow. While recycling remains essential, large volumes of conventional plastics still escape recovery systems and persist in the environment.
BioFuture Additives provides a complementary pathway.
Our technology enables conventional polymers to transition back into the biological carbon cycle through controlled bioconversion into biomass under natural environmental conditions. Importantly, the additive can be incorporated through standard compounding and processing methods, allowing manufacturers to continue using existing materials, equipment, and production lines.
BioFuture technology can be integrated into a wide range of commonly used polymer materials, including:
• Polyethylene (PE) – LDPE, LLDPE, HDPE
• Polypropylene (PP)
• Polystyrene (PS)
• Polyethylene Terephthalate (PET) (certain applications)
• Polyamide (PA / Nylon) (selected applications)
• Polyurethane (PU)
• Ethylene Vinyl Acetate (EVA)
• Thermoplastic Elastomers (TPE / TPR)
• Polycarbonate (PC) (specific applications)
• ABS (Acrylonitrile Butadiene Styrene)
• Polyvinyl Chloride (PVC) (selected rigid applications)
Our additive technology can be applied across a broad range of polymer products, including:
Packaging & Flexible Films
• Shopping bags and retail carry bags
• Garbage bags and refuse sacks
• Agricultural films and mulch films
• Shrink wrap and pallet stretch films
• Food and product packaging films
• Courier and e-commerce bags
Industrial Packaging
• Cement bags and woven polypropylene sacks
• FIBC bulk bags
• Protective packaging films and liners
Consumer Products
• Plastic packaging components
• Disposable consumer items
• Household plastic products
• Toys and molded plastic goods
Textiles & Fibers
• Synthetic textile fibers (polyester / polypropylene)
• Nonwoven fabrics and hygiene products
Agricultural & Infrastructure Products
• Irrigation pipes and drip lines
• Agricultural twines and nets
• Geotextiles
Rigid Plastic Products
• Bottles and containers
• Caps and closures
• Plastic crates and pallets
BioFuture technology is already in production with multiple polymer products across several markets worldwide. Adoption is growing steadily — from small manufacturers and SMEs to global brands — demonstrating how quickly the industry is recognizing the value of scalable sustainability solutions.
This growth is reflected in the significant increase in industry engagement, partnership discussions, pilot trials, and commercial production projects currently underway.
Our goal is to work closely with manufacturers, converters, polymer producers, brand owners, and sustainability teams to integrate this technology into existing polymer systems while maintaining performance, cost efficiency, and manufacturing continuity.
Our engagement process typically includes:
• Initial technology introduction
• Confidential discussions and NDAs
• Technical evaluation and formulation alignment
• Product testing and validation
• Pilot trials
• Commercial production integration
Bioconversion technology is gaining strong momentum globally. As companies seek practical solutions to support circular economy goals and address plastic leakage into the environment, technologies that work within existing polymer supply chains are becoming increasingly important.
We believe this represents the next stage in the evolution of sustainable polymer solutions.
We invite you to view a short introduction to the BioFuture technology here:
https://www.youtube.com/watch?v=tdrUyEFnKO0
If this aligns with your sustainability goals or product development roadmap, our team would be pleased to explore potential applications within your materials or product lines.
Thank you for your continued interest and collaboration as we work together to advance the future of polymer sustainability.
Warm regards,
Dean & Leviticus
Mobile +270637771232
Advancing polymer sustainability through scalable bioconversion technology.
