lululemon announces new partnership with ZymoChem to advance and scale bio-based nylon
lululemon has announced a multi-year collaboration with San Leandro, CA-based biotechnology pioneer ZymoChem to help expand the company’s use of bio-based nylon and advance its leadership in sustainable innovation. Together, lululemon and ZymoChem will sustainably transform a key building block of nylon 6,6 – a foundational material used in many of lululemon’s iconic products, including its Align and Wunder Train leggings.
lululemon’s work with ZymoChem began last year with an initial investment to support innovative technologies used to create a bio-based version of adipic acid – one of the key chemical building blocks of nylon 6,6 traditionally produced from petroleum. The next phase of this partnership will focus on scaling ZymoChem’s technologies to support the commercialization of this bio-based alternative.
This collaboration builds on lululemon’s partnerships with other sustainable materials leaders, including Geno, to expand lower-impact bio-based nylon alternatives. Additionally, last year, lululemon and Australian enviro-tech startup Samsara Eco unveiled the world’s first enzymatically recycled nylon 6,6 product, proving textile-to-textile recycling is possible for this high-quality, complex fiber. This moment not only unlocked an industry milestone but also reinforced the power of collaboration in creating transformative change.
lululemon’s partnership with ZymoChem marks another important step in the company’s journey to develop more products with preferred materials and end-of-use solutions. By combining expertise in bio-based technologies and raw materials, ZymoChem and lululemon will help pave the way for more sustainable high-performance apparel.
By continuing to broaden its portfolio of partners, lululemon is advancing renewable and recycled innovation across a range of materials – from bio-based nylon 6 and 6,6, to textile-to-textile recycling for polyester and nylon. lululemon is committed to finding next-generation solutions that push the boundaries of performance and material science, leading the way for the future of sustainable textiles.
