From the Sector

Every year, millions of tons of PET and polyester waste end up in landfills or are incinerated, yet sustainable recycling solutions remain limited. DePoly - a leading sustainable PET-to-raw-material recycling company – announced the upcoming launch of a 500-tonne-per-year showcase plant in Monthey, Switzerland this summer, representing a critical step in the company's journey from laboratory breakthrough to industrial-scale implementation.

The facility will demonstrate DePoly's proprietary process that converts PET and polyester waste into virgin-quality raw materials without fossil fuels. Imagine a world where discarded items – from polyester shirts to water bottles – are not wasted anymore but resources transformed back into the building blocks for new products. After all, revolutionizing an industry isn't just about creating new technology – it's about proving it works at scale.

DePoly’s technology has already demonstrated its commercial impact through collaborations with some of the world’s leading companies—not only in fashion, like Odlo, but also in cosmetics and the broader consumer goods industry, including innovators such as PTI. Through these partnerships, DePoly has validated the quality of its recycled monomers by transforming PET waste into new bottles, high-performance textile fibers, and cosmetic packaging. This proves that DePoly’s recycled materials can meet, and even exceed, the highest standards of purity and performance across a wide range of industries.

By delivering oil-equivalent monomers, DePoly’s technology sets a new benchmark for circularity, offering a genuine alternative to virgin materials.

DePoly is ramping up with world-class innovators, bold thinkers and cutting-edge know-how—taking their pilot victory to industrial scale demands nothing less than unstoppable ambition. The company is planning to build a commercial plant in 2027 that will process significantly larger volumes of PET and polyester waste – a major leap in redefining recycling and advancing the circular economy, as DePoly strives to become the global leader in sustainable, circular plastics.

To further accelerate this expansion, DePoly has secured a total of $23 million in seed funding with MassMutual Ventures joining a second closing of its round. The expanded investor base positions DePoly as one of the biggest recycling technology companies in Europe, with more than $30 million raised across two rounds and grants. MassMutual Ventures joins existing investors, including Founderful, ACE & Company, Angel Invest, Zürcher Kantonalbank, BASF Venture Capital, Beiersdorf Venture Capital, and Syensqo.

Sports company PUMA and RE&UP Recycling Technologies have signed a Letter of Intent (LoI) to scale a fully circular textile solution, transforming textile waste into RE&UP’s Next-Gen Recycled Cotton Fibers and Recycled Polyester Chips.

Circularity is one of the focus areas of PUMA’s Vision 2030 sustainability goals and the company has already scaled up its RE:FIBRE textile-to-textile recycling program, producing millions of football jerseys made out of an increasing share of recycled textiles. RE&UP has become a key Next-Gen raw material partner in the RE:FIBRE program supporting PUMA’s ambition to reduce reliance on bottle-recycled polyester, enhancing true circularity while minimizing textile waste. Due to its previous success, this collaboration has now evolved into a broader global commitment to fully enabling circularity.

As part of the expansion, PUMA will introduce RE:FIBRE to the Americas, leveraging RE&UP’s recycled raw materials within its local supply chain. Both companies have a long-term commitment to scaling sustainable solutions in the textile industry. By 2030, PUMA aims to use 30% fiber-to-fiber recycled polyester fabric for its apparel products.

RE&UP’s revolutionary recycling technology is a key enabler of the circular transition of the industry, especially due to its unique capability to process diverse textile feedstocks, including post-consumer and post-industrial waste, as well as complex blended textiles like polycotton and polyester-elastane—materials, traditionally difficult to recycle. Powered with 100% renewable energy and leveraging advanced technologies such as decolorization processes, RE&UP sets a new benchmark for sustainable, low-impact recycled textile fibers.

Beaulieu Fibres International is exhibiting its next-generation sustainable fibre solutions for high performance nonwovens in various industries at IDEA25 in Miami Beach end of April.

“IDEA25 is at the intersection of nonwoven materials and sustainability, with a focus on innovation and research to address environmental challenges and new opportunities. With our Sustainable Fibres Program, we offer low carbon, recyclable and circular solutions where performance and sustainability go hand in hand, bringing value in co-design and TCO performance,” said Maria Teresa Tomaselli, General Manager, Beaulieu Fibres International.

Self-reinforced PP fibres for fully recyclable automotive composites
The company will be presenting its comprehensive range of polypropylene (PP) bonding fibres designed for thermoplastic lightweight composites and automotive interior fabrics. These fibres assist car manufacturers and OEMs in meeting stringent performance, cost-efficiency, and sustainability standards. Beaulieu’s PP fibres are engineered to enhance the mechanical, thermal, and functional properties of composites while reducing vehicle weight.

Fibres for high performance liquid and air filtration
Beaulieu has set new performance standards for the fast-growing air and liquid filtration industry rolling out its full range of MONO and BICO fine-medium count fibres, as an outcome of its investment into R&D efforts to promote staple fibres in the field of high efficiency filtration.

In addition to its existing portfolio of PP fibres for liquid filtration, compliant with FDA and European food contact regulations, Beaulieu is launching a new bicomponent fibre range in PET/PE, PP/PE for high loft filtration media and fine count mono PP fibres for tribo-electric charged air filter media.

The fine count mono fibres are customized according to the line specifics of the nonwoven producer and guarantee up to 20% higher filtration efficiencies for nonwovens in combination with state-of-the-art acrylic counter fibre compared to standard PP fibres used in this application. Typical applications are air handling units in larger buildings and residential furnaces.

Premium outdoor PP fibres for resilient, weather-resistant crop protection solutions
Engineered for superior mechanical strength and resistance to environmental stress factors, these fibres enhance durability in needle-punched fabrics, ensuring long-lasting protection in the field. Their advanced UV stabilization prevents degradation from prolonged sun exposure, extending the lifespan of crop covers, while their hydrophobic properties repel water, reducing moisture-related damage and maintaining breathability.

Ultrabond, design for recycling
Discover UltraBond innovative bonding staple fibres that replace the need for chemical binders. They open a path to create 100% polypropylene (PP) needlepunched fabrics which meet the same performance requirements as traditional constructions, while reducing end-of-life environmental impact.

The 100% polyolefin-based needlepunched fabrics are fully recyclable, reducing waste generation and creating high value PP recycled products as new materials. Furthermore, the sustainable fabrics are produced with an improved Total Cost of Ownership and with a significant ecological footprint reduction.

Beaulieu strengthening its position in the hygiene market
With a full portfolio already serving the hygiene sector, Beaulieu is focusing on next-generation speciality bicomponent solutions designed to enhance softness, processability, and sustainability in absorbent hygiene products.

Hypersoft fibres are specifically engineered for topsheet applications in direct contact with the skin: 25% improvement in softness compared to standard reference fibres while maintaining optimal processability has been achieved.

Meralux is a bicomponent trilobal fibre that improves nonwoven materials by providing better opacity, comfort, and absorption. It also promotes sustainability by saving raw materials and reducing carbon emissions by up to 60%.

Reju™, a textile-to-textile regeneration company, and Cibutex, a cooperative of companies dedicated to establishing a more sustainable textile supply chain, announced a partnership. Through this collaboration, Reju and Cibutex will work to establish an ecosystem among Cibutex member companies.

This partnership will deliver feedstock supply of secondary raw materials derived from post-consumer textile waste to Reju for the recycling and the production of regenerated Reju Polyester™. This provides circular regeneration opportunities using Reju’s innovative textile-to-textile recycling technology.

Reju is pioneering a global infrastructure for large-scale textile waste regeneration, starting with polyester. Reju Polyester™, will have a 50% lower carbon footprint compared to virgin polyester and can be regenerated infinitely. This partnership with Cibutex will see materials from the cooperative’s member companies processed at Reju’s Regeneration Hub Zero in Frankfurt, Germany, which will be fully operational in 2025 and at future Reju Regeneration Hubs.

Cibutex brings together companies from the textile service sector to collect and process post-use business textiles, creating a pathway for these materials to be reintroduced into the production cycle. It aims to close the loop on business textile production, ensuring that B2B post-use textiles are collected and transformed into valuable raw materials. By integrating Reju’s proprietary regeneration technology, this union ensures traceability and scalability, key components of a truly sustainable and circular textile supply chain.

The joint efforts of Reju and Cibutex highlight the strength of combined ingenuity and innovation in tackling the growing challenge of textile waste. With the European Union’s mandate for textile waste collection taking effect this year, along with pending regulations in the U.S., this initiative comes at a pivotal moment, ensuring scalable solutions to meet regulatory demands and achieve a more sustainable future.

Kelheim Fibres, a leading manufacturer of specialty viscose fibres, has published their comprehensive sustainability report. By doing so, the company is setting another milestone for transparency while simultaneously emphasizing its commitment to the goals of the UN Global Compact.

An integral part of the sustainability report is the EMAS Environmental Statement, which – as it has been annually since 2020 – was audited by independent environmental experts as part of the EMAS (Eco-Management and Audit Scheme) revalidation. This confirms Kelheim Fibres’ high environmental performance and its continuous efforts towards sustainable corporate governance.

The sustainability report goes beyond mere environmental performance and addresses all aspects of Corporate Social Responsibility (CSR).

“Credibility and trust are based on transparency. With our new sustainability report, we demonstrate how we fulfil our responsibility for both people and the environment – and the contribution we make with our biodegradable fibres to combating one of the biggest global problems of our time, the growing plastic waste,” explains Wolfgang Ott, Head of CSR at Kelheim Fibres. The viscose fibres made from 100% plant-based raw materials represent a powerful alternative to conventional plastics in numerous applications and thus help reduce global waste.

Neste, Alterra and Technip Energies have signed a collaboration agreement to advance the circularity of plastics by providing the industry a standardized technology solution for chemical recycling, also referred to as “advanced recycling”.

The partners aim to globally offer a standardized modular solution, based on Alterra’s proprietary liquefaction technology, to parties interested in building capacity for chemical recycling.

This solution will come in the form of readily designed and engineered liquefaction plant modules, which will allow for lower pre-investment costs, accelerated implementation time, high predictability on project economics and reduced overall capital costs. Contributing to more effective execution of chemical recycling capacity projects, the solution helps the industry to reduce dependency on virgin fossil resources and accelerate the circularity of polymers and chemicals.

Alterra’s technology is a thermochemical liquefaction process, which converts hard-to-recycle plastics into a liquid hydrocarbon product. This liquid intermediate product can then be further refined into high-quality raw materials for new plastics and chemicals. As of today, Neste alone has processed more than 6,000 tons of plastic-derived feeds, including ISCC PLUS certified oil from Alterra’s industrial-scale site in Akron, Ohio.

Combining the expertise of three companies in one solution
Alterra and Neste started collaborating in chemical recycling in 2021, jointly improving aspects of Alterra’s technology and creating respective value chains. Alterra and Technip Energies started their collaboration in chemical recycling in 2022. The three companies now join efforts in a unique endeavor: Alterra and Neste will license the liquefaction technology and Technip Energies will design, engineer and deliver the standardized liquefaction plant solution to interested parties globally.

Utilizing renewable materials* and formaldehyde-free chemistries, the industry-first Archroma NTR Printing System combines newly created pigment black and customized auxiliaries for enhanced sustainability, comfort and durability
 
Archroma, a company in specialty chemicals towards sustainable solutions, introduced the NTR Printing System to make bio-based pigment printing commercially possible for the first time. Based on renewable raw materials and designed for safer chemistry, it helps apparel and textile brands reduce their environmental footprint while producing brilliant black shades on garments that deliver both comfort and durability.

Bio-based pigment printing is an emerging technology that is attracting major interest from brands that want to use pigments derived from natural sources, such as plants, in the production of environmentally conscious textiles. Until now, however, bio-based pigments have not delivered color fastness that is comparable to synthetic pigments, and color quality and production performance have not been sufficient to support commercial-scale production.

Archroma’s NTR Printing System is the first to utilize renewable feedstock across pigment dispersion, binder and fixing agent. Crucially, it ensures good wet-rubbing and dry-rubbing fastness, with outstanding softness on all kinds of fabrics. Furthermore, it is suitable for most popular application technologies, including printing, coating and continuous pigment dyeing, with outstanding runnability for production efficiency.

“These properties make the new NTR Printing System ideal for the highly competitive denim market, where sustainability, comfort and durability are important; for knits, where very soft handfeel is essential; and on babywear, where both exceptional softness and safety are required,” Joaquin Femat, Market Segment Director for Printing, Archroma, said.

The result of more than two years of research and development, the innovative new NTR Printing System required Archroma to create customized binding and fixing agents to ensure fastness for the pigment black dispersion comparable to current petroleum-based printing systems. All three printing elements are partially based on renewable feedstock to reduce reliance on non-renewable petrochemicals. Archroma also developed the new system to avoid toxic input streams and impurities, including formaldehyde. Two successful bulk trials were conducted with Textprint S. A. and Jeanologia.

The NTR printing system comprises the following highly efficient and robust printing elements:

• PRINTOFIX® BLACK NTR-TF: A non-gelling pigment black with 79% renewable carbon content*, designed for use in textile applications with no impact on fastness levels.
• HELIZARIN® NTR-SS: A formaldehyde-free super-soft binder with 40% renewable carbon content, designed to ensure very good overall fastness levels.
• LUPRINTOL® FIXING AGENT NTR-HF: A formaldehyde-free fixing agent with 40% renewable carbon content**, designed for high wet fastness in rubbing and laundry.

All three elements are currently being evaluated for compliance with globally accepted standards like bluesign®, the Global Organic Textile Standard (GOTS) and Zero Discharge of Hazardous Chemicals (ZDHC). The system also supports major industry restricted substances list (RSL) requirements.

Neste is expanding its logistics infrastructure for liquefied recycled raw materials at its refinery in Porvoo, Finland, including materials such as liquefied waste plastic and liquefied rubber tires. This lays the foundation to handling larger amounts of liquefied raw materials to support Neste’s strategic aims to advance chemical recycling and transform the Porvoo refinery into a renewable and circular solutions hub.

The new logistics installations comprise dedicated unloading facilities: At the refinery’s harbor, Neste is building an unloading arm with a heating system as well as pipelines to connect the harbor with dedicated storage tanks. Unlike regular crude oil, liquefied waste plastic or discarded rubber tires require heating to stay liquid. At the same time, the systems need to come with higher resistance to corrosion. In addition to the unloading arm and pipelines, Neste is also building a vapor recovery unit, contributing to emission control of the operations.

The new logistics infrastructure is expected to be completed in 2024. It will, therefore, be available when Neste finishes construction of its liquefied waste plastic upgrading unit at the Porvoo refinery, which is currently being built as part of the project PULSE, planned to be finalized during 2025. At the upgrading unit, the liquefied raw materials are turned into high-quality feedstock for the plastics and chemicals industry.

With the fully recyclable 100% polyester trunk side trim, Autoneum is putting the rear of the vehicle at the center of its efforts for a more circular economy in the automotive industry. The latest addition to Autoneum’s growing portfolio of sustainable monomaterial products made entirely from polyester is based on the existing Pure technology Propylat PET. The component demonstrates an excellent environmental performance in terms of recycled content, waste-free manufacturing and end-of-life recyclability.

New regulations such as the revised End-of-Life Vehicles Directive in Europe are accelerating the automotive industry’s transition from a linear to a circular economy. In this context, the recyclability of vehicles at the end of their service life is becoming increasingly important. This in turn raises the demand for automotive components that have an excellent environmental performance across the product life cycle and at the same time meet the highest standards of material quality and technical performance. Autoneum’s new 100% polyester trunk side trim helps customers achieve their ambitious sustainability targets while offering optimum durability, design flexibility and aesthetics.

As with Autoneum’s environmentally friendly monomaterial carpet systems, the new 100% polyester trunk side trim is fully recyclable. Production cut-offs can be reclaimed, processed and reused, ensuring a closed material loop. Thanks to Autoneum’s high-value recycling concept, the recycled fibers can also be granulated and spun into new fibers, which reduces the need for virgin raw materials and thus conserves natural resources. The carrier material is based on the lightweight Autoneum Pure technology Propylat PET and contains at least 50% recycled fibers. Like all variants of Propylat, the technology features a high proportion of recycled material and can be produced waste-free thanks to its complete vertical integration. In addition, Propylat PET consists of 100% PET and is therefore fully recyclable. The new monomaterial trunk side trim made exclusively from polyester is also available under the Autoneum Blue sustainability label. Blue products feature at least 30% recycled PET that was collected from coastal areas, thus making an important contribution to preventing plastic pollution in the oceans.

Autoneum’s sustainable concept for 100% polyester trunk components is not limited to side trim but can also be applied to tailgate and other trunk trim. Thanks to their unique material composition, the Propylatbased trunk trim parts are lightweight and sound-absorbing, thus contributing to the attenuation of tire and rear e-motor noise. In addition, their geometry can be tailored to individual customer needs while the textile surface improves the overall aesthetic of the parts and at the same time offers a high resistance to scratches. Autoneum’s eco-friendly 100% polyester trunk trim is available in Europe, North America and China.

The Lectra Group company announced a new collaboration between TextileGenesis, the textile traceability platform and the Forest Stewardship Council (FSC®). It will enable the implementation, via the TextileGenesis platform, of new solutions to ensure the traceability of cellulose fibers from responsibly managed forests.

In fashion, many textiles such as viscose, lyocell and modal use man-made cellulose fibers. These fibers are themselves made from wood pulp, the production of which can contribute to deforestation.

Founded in 1994, the Forest Stewardship Council (FSC®) is an international NGO whose mission is to promote responsible forest management worldwide. In particular, the organization offers certification for products and raw materials which have been obtained from wood grown in responsibly managed forests, and comes from supply chains where social rights of workers, communities and indigenous peoples have been safeguarded.

Amit Gautam, founder and CEO of TextileGenesis, explains: "We've already been working with Man Made Cellulosic Fiber Producers for several years to facilitate, thanks to our blockchain-inspired technology, the traceability of fibers manufactured by the most virtuous producers, and we've integrated their analysis criteria into our platform. By also becoming an FSC® partner today, we're taking things a step further. This new collaboration will support companies in the traceability of FSC certified fibers and support the administration and data management of FSC Chain of Custody certification. All players in the value chain will benefit from increased transparency and much more reliable upstream data. Fashion brands will be able to demonstrate much more easily that their garments use textiles made from responsibly sourced man-made cellulose fibers."

Fabian Farkas, FSC International Chief Commercial Director, adds: “We are seeing a rapid increase in interest in FSC certification from the textile industry, marking a very positive trend. Through this collaboration with TextileGenesis, we aim to simplify the administrative part of FSC certification for companies within the textile supply chain by automating many required data processes. Our goal is to empower brands to identify opportunities for seamless progress in meeting their FSC procurement policies.”

Following the signature in October 2023 of a memorandum of understanding with the International Cotton Association (ICA) and the launch last January of two consortiums with footwear and leather players, and more recently the announcement of its partnership with the Aid by Trade Foundation (AbTF), the initiator of The Good Cashmere Standard® (GCS), TextileGenesis confirms, with this new collaboration with the FSC®, its central place in the ecosystem of players mobilizing for more sustainable and responsible fashion.