Collaborative Initiatives by Gap Inc. and Ambercycle to Propel Textile-to-Textile Recycling Innovations

Gap Inc. (NYSE: GPS) and Ambercycle have unveiled joint efforts to incorporate textile-to-textile recycled materials into Athleta products. Ambercycle’s innovative cycora® regenerated polyester, derived from end-of-life textiles, is poised to replace traditional polyester in Athleta’s offerings. Commencing in 2026, Athleta, a Certified B Corporation, aims to be the pioneering performance apparel brand utilizing cycora® on a large scale.

Chris Blakeslee, CEO of Athleta, emphasized the brand’s commitment to reducing its environmental impact through the adoption of recycled materials like cycora®. This aligns with Athleta’s values and maintains their unwavering focus on quality standards. Known for its versatile and inclusive apparel designed for women by women, Athleta seamlessly integrates performance and technical features to support women in various aspects of their lifestyles.

Shay Sethi, CEO of Ambercycle, expressed enthusiasm about collaborating with like-minded brands such as Athleta in the performance sector. Their collaboration aims not only to create high-quality garments but also to drive the circular fashion movement in response to the increasing demand for circular materials.

Dan Fibiger, Head of Global Sustainability at Gap Inc., emphasized the company’s commitment to evolving its supply chain and product development processes to deliver innovative, environmentally friendly products. Ambercycle’s proprietary molecular regeneration technology, utilizing discarded polyester as feedstock for cycora®, contributes to reducing industry greenhouse gas emissions and dependence on landfilling or incinerating end-of-life textiles.

Ambercycle’s groundbreaking technology, which transforms end-of-life textiles into new materials, showcases a growing demand for circular materials through textile-to-textile regeneration. Fibiger emphasized that this technology not only ensures a sustainable supply of high-performance fabrics but also has the potential to significantly reduce waste and emissions, thus advancing circularity on a larger scale.

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