textile recycling
Enzyme Plastic Recycling Technology by Samsara Eco
Samsara Eco is working on innovative solutions for recycling plastics and textiles through advanced enzyme technology. Unlike traditional recycling, which often downgrades materials and limits plastic recyclability, Samsara Eco’s enzymes break down complex plastics (polymers) into their original chemical building blocks (monomers). The company creates virgin-grade plastics without reliance on fossil fuels by converting polymers into simple monomers.
Ai-Design Enzymes for “Biorecycling” Technologies
Epoch Biodesign has created a platform that integrates advanced biological processes to transform complex, blended plastics into sustainable materials. Unlike conventional recycling methods, the company’s proprietary process operates at low temperatures and atmospheric pressure, without toxic catalysts or solvents—what they term "biorecycling."
Biodegradation of Textile Fabrics Info-Sheets
In this combined PDF of three info-sheets, discover a summary of the research and the key findings from the Design for Transformation (D4T) Initiative's collaboration with Leeds University in the U.K. to conduct a literature review of the existing research examining the biodegradability of textile fabrics including colorants and finishing chemistries. The individual info-sheets – along with other resources – can be found on the Biomimicry Institute's Resources page.
PET Recycling with Enzymatic Technology
Developed by Carbios, a French biotechnology company that focuses on solutions for recycling plastics and textiles through enzymatic recycling technology. The process uses an enzyme capable of specifically depolymerizing the PET (polyethylene terephthalate) contained in various plastics or textiles.
Waste-Free Textile Circular Materials
Worn Again Technologies, a UK-based company, is dedicated to revolutionizing textile recycling by creating a circular economy for fabrics. Their innovative process enables textiles to be continuously recycled into new products. Worn again has developed a process that separates, decontaminates, and recaptures raw materials from mixed fibers, such as polyester and cotton, and turns them into virgin-like materials. Using a closed-loop chemical recycling process, Worn Again maximizes material recovery while enhancing environmental sustainability.
Amphitex™ by Amphico
Amphitex™ is a PFAs-free alternative to traditional waterproof and breathable textiles. Developed by Amphico, a leader in integrating research, engineering, and design to advance innovation and circularity, Amphitex™ is crafted for outdoor use with a unique, coating-free Amphidry™ Yarn. This yarn is essentially superhydrophobic and does not require additional water-repellent chemical coatings. Free from polytetrafluoroethylene (PTFE), Amphitex™ achieves high performance in both waterproofing and breathability, matching the standards of industry leaders.
Biomaterials: Mylo™, B-Silk Protein™ and Microsilk™
Bolt Threads is a biotechnology company that creates sustainable materials through advanced bioengineering techniques. Their innovative products cater to the textiles, skincare, hair care, and cosmetics industries. Key products include Mylo™, B-Silk Protein™, and Microsilk™. Mylo™ is a leather-like material derived from mycelium, the root structure of mushrooms. Grown in a vertical farming system powered entirely by renewable energy, mycelium matures in approximately two weeks. Post-harvest, it is processed into sheets of soft biomaterial.
Biowaste to Fiber: Texloop™ and Agraloop™
Circular Systems is a material science company that transforms biowaste into valuable fiber, yarn, and textile fabrics. Texloop™ is a technology that recycles pre- and post-consumer textile waste into a high-quality recycled cotton fabric and upgrades it into high-quality RCOT™ recycled cotton fiber.
Nucycl®
Technology developed by Evrnu®, an advanced material innovation company, reshaping resource utilization and reducing the negative environmental impacts of the textile industry. Nucycl® is a fiber regenerated from cotton textile waste that provides a real alternative to high-impact raw materials like cotton and polyester. The technology converts textile waste materials into ‘new’ engineered fibers, which can be recycled repeatedly.
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