From the Sector

New Directors Bring Industry, Innovation and Leadership Experience to Advance Syensqo’s Evolution to a Specialty Chemicals Company.
 
SYENSQO SA announced the appointment of Dr. Cynthia Arnold and Augusto Di Donfrancesco as new members of its Board of Directors, effective July 17, 2025. 
They replace Matti Lievonen and Nadine Leslie who are stepping down from the Board to pursue other opportunities.
 
Dr. Cynthia Arnold brings more than 30 years of global leadership experience in technology and innovation within the materials and chemicals sectors. She previously served as Chief Technology Officer at Valspar Corporation and held senior roles at Sun Chemical, Eastman Chemical and General Electric. With extensive public company board experience, Dr. Arnold currently serves as an independent director on the boards of Cabot Corporation, Milliken & Company and Fluence Energy. She holds a PhD in Materials Science and Engineering from Virginia Polytechnic Institute and an MBA from the University of California,Berkeley.
 
Augusto Di Donfrancesco held key leadership roles in research & innovation, operations and transformation during a more than 35-year career at Solvay. As President of Solvay’s Specialty Polymers Global Business Unit, he led a period of significant organic growth, doubling net sales through customer-centric innovation. He was also a member of the Solvay Executive Leadership Team where he led group-wide strategic programs. Mr. Di Donfrancesco’s deep sector knowledge and track record in operational excellence and capital allocation will further reinforce Syensqo’s ongoing growth and transformation objectives. Mr. Di Donfrancesco holds a bachelor’s degree in chemical engineering from Pisa University. 
 
Rosemary Thorne, Chair of the Board of Directors, said, “On behalf of the Board, I would like to express our gratitude to Matti and Nadine for their contributions to the Board during Syensqo’s formative period as an independent public company. As part of our Board succession planning, we are focused on maintaining the right mix of skills and expertise and are thrilled to welcome Cynthia and Augusto, who are proven leaders of the highest caliber and are poised to contribute their significant leadership, technology, innovation and operational experience to the Board. We look forward to benefiting from their respective knowledge and insights as we continue to focus on delivering shareholder value.”
 
“We are delighted to welcome Cynthia and Augusto to our Board,” said Dr. Ilham Kadri, Chief Executive Officer of Syensqo. “Their perspectives will be invaluable as we continue to prioritize innovation and operational excellence to capitalize on the meaningful long-term growth and value creation opportunities ahead. I look forward to working with them.” 
 
Dr. Arnold said, “Syensqo’s commitment to scientific excellence and sustainability resonates deeply with me. I am excited to contribute to the Board’s work to advance innovation and operational performance, and to help shape the Company’s continued success in a rapidly evolving global landscape.” 

 
“I am honored to join Syensqo’s Board during this important period in the Company’s evolution to a Specialty Chemicals Company” said Mr. Di Donfrancesco. “Having spent my career driving transformation, innovation and growth within the specialty chemicals sector, I look forward to working with my fellow directors and the management team to help accelerate growth and unleash Syensqo’s potential.”

A much more sustainable, cost effective and very flexible process for manufacturing critical fibres based on ultra high molecular weight polyethylene (UHMWPE) is being launched by the UK’s Fibre Extrusion Technologies (FET).

UHMWPE is prized in many industries due to its extraordinary properties. The fibre is, for example, ten times stronger than steel by weight, while exhibiting outstanding abrasion resistance, low friction and high impact strength. UHMWPE fibres are also chemically inert, resistant to most chemicals and UV light and do not absorb water. They maintain performance in a wide range of temperatures and despite their toughness are extremely lightweight.

As a result, they are unbeatable in demanding applications such as high-performance ropes in maritime industrial and rescue applications. In addition, they are invaluable in ballistic protection, cut-resistant clothing and high-performance sports gear – and increasingly in medical implants.

Biomedical market
“FET has supplied many extrusion systems to the biomedical market, most notably for the production of both resorbable and non-absorbable sutures,” says FET Managing Director Richard Slack. “In exploring what else we could do in assisting these customers, it became clear that there was a need for smaller quantities of UHMWPE fibres in bespoke sizes.”

“The current systems for manufacturing UHMWPE filament yarns are on a huge scale, with very complex processing routes,” adds Research and Development Manager Jonny Hunter. “This means the supply chain is currently very inflexible with minimal opportunity for new product development. These disadvantages have been fully addressed in the development of our new FET-500 series lab and small scale gel spinning system.”

Solvent extraction
A major FET innovation is the introduction of a patented batch system for solvent extraction exploiting supercritical carbon dioxide (CO2).

UHMWPE production, until now, has involved the use of large volumes of hazardous solvents such as dichloromethane (DCM) or hexane. The UHMWPE powder is mixed with mineral oil to form a gel which is subsequently extruded, cooled and solidified. The oil is then extracted from the fibres using DCM or hexane and the solid fibres are then drawn at high temperature to further align the polymer chains, resulting in final strong and tough fibres. Typically, it takes 10 kg of Hexane to extract 1 kg of oil. 

“Solvent reclamation using extraction baths and hot air drying chambers is not practical for the scale of our system,” explains FET’s Senior Material and Process Scientist Kris Kortsen. “The current baths employed can be up to 200 metres long and the waste volumes are considerable. Expertise is needed in dealing with such dangerous chemicals and overall the process has an immense environmental impact.

“CO2, by contrast, is a cheap and abundant sustainable solvent that is non-toxic, non-flammable and leaves no residue.” 

Closed loop
FET’s closed-loop system can achieve more than 95% solvent recovery without loss of performance, resulting in residue-free UHMWPE filament yarns via a vastly improved route in terms of both safety and logistics.

A further innovation is the highly modular drawing system based on heated godet rollers, enabling flexible temperature and drawing control for new product development and the ability to be expanded at any time to meet customer needs.

A comprehensive LCA study detailing the full savings potential is currently being prepared and will be published shortly.

“Having processed over 130 separate polymers in the development of our extrusion systems, we believe the FET-500 is a game changer,” concludes Richard Slack. “We believe there is a big gap in the market for smaller quantities of UHMWPE, and our first line is now fully operational at the FET Fibre Development Centre in Leeds. We look forward to demonstrating it and discussing its full potential with interested companies from around the world.”

Polyethylene and polypropylene account for two-thirds of the world’s plastics. But the polymers’ popularity has an equally large downside. Because they have similar densities and physical properties, the polymers are difficult – and expensive – to separate when mechanically recycled together. What results is a weak, degraded material that really isn’t good for anything.

Now, Cornell researchers have developed an inexpensive and potentially scalable approach that uses a commercially available peroxide to bind the polymers together, thereby creating a more useful, high-quality plastic recycling additive.

The findings were published May 19 in the Journal of the American Chemical Society. The co-lead authors were postdoctoral researcher Moritz Kränzlein and doctoral student Shilin Cui. The project was led by Geoffrey Coates, the Tisch University Professor of Chemistry and Chemical Biology in the College of Arts and Sciences, the paper’s senior author.

In a way, the project is itself a recycled product. In 2017, Coates’ lab worked with collaborators from the University of Minnesota to create a multiblock polymer that could combine polyethylene and polypropylene mixtures. The new material was an important scientific achievement, according to Coates, but it proved difficult to scale up. It was also too expensive to be practical.

“We had to go back to the drawing board and think of the Venn diagram of what material would work and what synthetic methods would be affordable,” he said. “Why didn’t we just do that in 2017? Trust me, if it was easy, somebody else would have done this long ago.”

The key to developing their new polyolefin compatibilizer was to look for  existing polymers that, with the right processing, could do the job, rather than creating a new one from scratch. Kränzlein began by experimenting with the materials that were already in the lab, always with a few parameters in mind.

“Every second meeting, when I was giving Geoff an update, his first question was, ‘What’s the cost?’ There was always this line of price per pound that I shouldn’t cross,” Kränzlein said. “We tried to really keep that as a focus of this project. Instead of finding a very elegant or sophisticated solution, we tried to find a real-world solution that works.”

A year and a half – and more than 200 experiments – later, the researchers settled on an organic alkyl peroxide that, when heated, essentially plucks hydrogen molecules off high-density polyethylene (HDPE) and isotactic polypropylene (iPP) so they can be grafted together and form a copolymer material that can be added to a mechanical recycling process for HDPE and iPP mixtures, restoring their properties.

The copolymer can basically be thought of as “plastic soap,” Kränzlein said.

“When we have mixtures of commodity plastics like HDPE and iPP, those don’t mix very well, and those phases separate from each other, which makes the material properties of those mixtures pretty bad,” Kränzlein said. “This process adds in a third component that acts like a soap between those two phases, and that soap facilitates a better miscibility between the polymers, and that restores the physical properties of those mixtures, essentially.

“It took us a very, very long time playing around with all the different tuning points,” he said, “until we finally achieved something that that we were happy with.”

To better understand their compatibilizer’s properties and the grafting reaction, the researchers turned to Brett Fors, the Frank and Robert Laughlin Professor of Physical Chemistry (A&S), and doctoral student Jenny Hu, who conducted rheological characterization studies on it.

“So we’ve got the material,” Coates said. “The question is, now can you make larger amounts? We’re doing grams-at-a-time scale. Ultimately, you’d want to be doing dozens of kilograms. We’re confident it’ll scale, but there’s going to be a lot of work to get it there.”

Coates is hopeful that the compatibilizer could also lead to the creation of new polymer alloys that leverage the respective strengths of different waste plastics. There would be no need for giant million-dollar plants: Just take some preexisting polymers and add the compatibilizer.

“You could make a whole kind of pallet of alloys that might have better properties than either one of the pure polymers alone, just like stainless steel,” said Coates, who recently launched a startup that specializes in the compatibilizer technology through Cornell’s Praxis Center for Venture Development. “The dream is, if you can make a really rigid polymer that’s also really tough, then you can make packaging that uses less material, yet has the same sort of properties. That’s one of the other big applications for this technology.”

Co-authors include Fors, Hu and research associate Anne LaPointe.

The research was supported the Gerstner Family Foundation, with additional funding from the U.S. Department of Energy through Ames National Laboratory’s Institute for Cooperative Upcycling of Plastics, an Energy Frontier Research Center.

On March 31, 2025, DEMGY Group took a decisive step in its international development strategy by acquiring the American company TOOL GAUGE, which specializes in the manufacture of plastic components for the interior of aircraft cabins. This acquisition will enable DEMGY to consolidate their position as one of the world leaders in high value-added plastics processing for civil and military aeronautics.

With this operation, DEMGY is extending its footprint on the North American market, a strategic territory for the aerospace sector. The American company, now renamed DEMGY Pacific, is thus joining a group already present in France, Germany, Romania and the United States, bringing the total number of the group's industrial sites to 10.

Recognized expertise for the benefit of American aerospace
Based in Tacoma, Washington State, TOOL GAUGE has nearly 60 years of experience in the processing of high-performance polymers and the machining of precision parts. Recognized for its operational excellence, it has been awarded the Silver Performance Excellence Award by Boeing for 9 consecutive years.

The company has two complementary production units: one dedicated to plastic injection, particularly for interior fittings in aircraft cabins, and the other specializing in the machining of metal and plastic parts. This technical expertise considerably strengthens DEMGY's offering to major clients in the aerospace sector.

Airbus, Boeing: DEMGY stands out as a key partner
This strategic acquisition enables DEMGY to become a tier 1 supplier for Boeing and Airbus, as well as a tier 2 supplier for all their equipment manufacturers in Europe and North America. This positioning considerably strengthens the group's visibility and attractiveness on the global aerospace market.

"By strengthening its leadership in high value-added plastics processing for the aerospace and defense industries, the DEMGY Group has become one of the world's leading, if not the leading, supplier of plastic parts for cabin interiors directly to Airbus and Boeing, as well as to all American and European aircraft equipment manufacturers," says Pierre-Jean LEDUC, Chairman and CEO of DEMGY Group. "This enables us to deploy our high and extreme performance plastics solutions on a much larger scale".

Integration driven by DEMGY Group's cross-functional synergies
DEMGY Pacific will be managed by Mike Walter, also President of DEMGY Chicago, and Eric Wilmoth, Vice-President of Operations. Both will be tasked with implementing industrial and commercial synergies with all the entities of the group, particularly in terms of injection, assembly and decoration.

This integration will promote the development of global solutions to meet the growing demands of the aerospace industry in terms of lightness, performance and durability.

Target of 200 million euros: managed growth
With its 10 industrial sites and 950 employees, DEMGY forecasts sales of over 130 million euros by 2025. Our group's ambition is to reach 200 million euros by 2030, capitalizing on its unique know-how, capacity for innovation and proximity to major customers.

Materials lightening at the heart of decarbonization
For several years, DEMGY has been committed to reducing the carbon footprint of industries, by designing polymer materials that are lighter than metal, durable and recyclable.Thanks to our circular Multiplasturgy® offer, we integrate eco-design from the product development phase.

Archroma, a global leader in specialty chemicals towards sustainable solutions, will present its groundbreaking solutions for textile and fashion brands at this year's China Interdye. Archroma’s showcase will emphasize its High IQ® Lasting Color assurance program and the PHOBOTEX® range of durable water-repellent finishes, underscoring the company’s dedication to providing low impact, durable, and long-lasting garment solutions.

As the largest specialized exhibition for textile dyes and chemicals, China Interdye 2025 offers a key platform for Archroma to present its latest advancements. This year’s focus is on innovative solutions that help brands achieve not only their sustainability goals but also meet the increasing demand for high-performance, long-lasting products in the textile and fashion industries.

“China continues to play a pivotal role in global textile production, with increasing demand for lower impact and high performance solutions,” said Christine Cai, Vice President of North Asia, Archroma Textile Effects. “We are excited to bring our High IQ® Lasting Color and PHOBOTEX® solutions to China Interdye, enabling brands to deliver garments that combine outstanding functionality, durability, and sustainability.”

Brilliant colors and long-lasting garments
Archroma is evolving its well-established High IQ® performance assurance program to include its innovative and sustainable intelligent textile effects.

As the first High IQ® program to be reintroduced, High IQ® Lasting Color incorporates Archroma’s most innovative color-retention technologies to ensure that garments stay looking new for longer—with bright shades that retain their intensity and dark shades that stay dark. Powered by specially selected AVITERA® SE and NOVACRON® dyes, High IQ® Lasting Color also helps mills and brands reduce their environmental footprint by using up to 50% less water and energy in processing.

PHOBOTEX® Range: Durable Water Repellency
Another highlight of the showcase at China Interdye will be the PHOBOTEX® range of durable water-repellent (DWR) finishes. With over a decade of innovation in fluorine-free “C0” technologies, PHOBOTEX® is at the forefront of the shift toward non-PFC DWR solutions. These advanced technologies provide long-lasting protection and comfort, incorporating renewable raw materials for a more sustainable approach.

Designed to meet current and future industry standards, the PHOBOTEX® range includes fluorine-free hydro polymers and bio-based options. It is easy to apply to any substrate, offering solutions for a variety of end uses. From everyday stain protection without compromising fabric feel, to extreme environment defenses, PHOBOTEX® ensures versatility. Additionally, it enhances mill productivity with excellent runnability, enabling faster, trouble-free production and consistent results.

With a clear focus on sustainability, Barmag, a subsidiary of the Swiss Oerlikon Group, is presenting comprehensive solutions from its product brands Oerlikon Barmag and Oerlikon Neumag for DTY and carpet yarn production at the Morocco Stitch & Tex Expo in Casablanca. From May 13 to 15, trade visitors can talk to experts from Barmag and the joint venture BB Engineering (BBE) at the Unionmatex booth (booth B4) to get an idea of the portfolio of the chemical fiber machine manufacturer.

Sustainable and efficient – the production of DTY yarns
Oerlikon Barmag offers a wide range of DTY machine configurations for the efficient and sustainable production of high-quality textured yarns made of various polymers – from polyester and polyamide to polypropylene, PLA and PTT. The modular machines – whether manual or automatic – produce yarns for excellent downstream processing at optimal OPEX costs.

Fancy yarns increasingly in demand
The demand for textiles with special characteristics is continuously increasing. For the production of these effect yarns, such as cotton-like DTY, linen-like DTY or wool-like DTY, Oerlikon Barmag offers a variety of processes and additional components. With its high-quality and flexible technology as well as its detailed knowledge of the yarn path and the required parameter settings, Oerlikon Barmag is the ideal partner for the successful and flexible production as well as the continuous further development of these specialty yarns.

Extended product range for carpet yarns
Thanks to its comprehensive knowledge of all relevant technologies in manmade fiber spinning, Oerlikon Barmag is the only manufacturer worldwide that can expand its range for the production of carpet yarns. The system concept, based on a POY and texturing process, is designed for the carpet and home textile sector and produces particularly soft and bulky polyester threads with BCF-like properties. The aim is to produce yarns with a titer of up to 1300dtex and over 1000 filaments, such as 1300dtex f1152, 660dtex f1152 and 990dtex f768. The machine concept includes the well-known WINGS HD POY winder and the eAFK Big-V texturing machine.

Innovative bicomponent BCF yarn for the carpet market
Quality, efficiency and performance – with its latest development in the field of bicomponent yarns for carpet production, Barmag's product brand Oerlikon Neumag is meeting the carpet market's demand for innovative BCF yarns. The new BICO-BCF yarn is characterized by a richer and higher volume and simultaneously significantly reduces the raw material consumption during carpet manufacturing.

VarioFil® – versatile compact spinning system for diverse applications and specialties
The VarioFil® system from BBE is ideal for a broad range of products, whether it be carpets, upholstery fabrics, fashion, sports, seat belts or airbags. This compact turnkey spinning line is particularly suitable for producers of small batches or specialized products. It flexibly processes various polymers such as PET, PP, PA 6, PA 6.6 and PBT. In combination with Oerlikon Barmag texturing machines, a wide range of textile standard yarns as well as textured yarns with BCF-like properties can be produced.

The VarioFil® R+ enables the direct recycling and processing of PET bottle flakes and PET waste from the start-up process into POY. This sustainable machine concept offers a high degree of product flexibility, including the production of spun-dyed yarn.

JeTex® air texturing offers a versatile product portfolio
BB Engineering also offers flexible solutions for the subsequent texturing of yarns. The JeTex® air texturing system perfectly complements the Oerlikon Barmag DTY systems and expands the product portfolio to include high-quality ATY based on POY and FDY for various textile applications. The centerpiece of the system is the texturing box developed by BB Engineering, which ensures gentle yarn treatment with reliable texturing effects and production efficiency.

“From waste to value” with VacuFil and Visco
BBE's VacuFil PET recycling system transforms textile waste into high-quality rPET melt. The technology is based on decades of experience in extrusion, filtration and spinning and combines gentle large-area filtration with targeted IV control. VacuFil processes various input materials, from bottle flakes to production waste and post-consumer waste. The patented Visco+ component removes volatile contaminants and automatically regulates the IV. The recycled melt can be added to the main melt stream, pelletized into chips or fed directly back into the spinning mill. The VacuFil system is modular and flexibly adaptable to customer needs.

Aquafil launched, in Slovenia, the first demonstration plant for the chemical separation of elastic fiber from nylon, an innovative technology to open new perspectives in the textile fiber sector.

“After more than a decade of research and development, Aquafil marks a turning point in the world of textile fibers with the launch of a revolutionary technology: the first demonstration plant for the chemical separation of elastic fiber from nylon. The journey began in 2013, with a joint research project together with Georgia Tech University and the filing of an initial patent. Although industrialization had not materialized, the work of Aquafil researchers never stopped. The perseverance and dedication of the R&D team led, in 2022, to the publication of a new patent, the result of improved technology that was finally ready to be tested on a semi-industrial scale.

Today, thanks to this demo plant, the results of laboratory experiments are confirmed: for the first time, it is possible to effectively separate elastic fiber from nylon in blended fabrics – one of the most difficult challenges in recycling composite materials, particularly those from sportswear and swimwear, among the most problematic wastes in the textile sector. Indeed, the coexistence of different fibers within the same fabric has long been a tremendous obstacle to recycling, condemning tons of potentially recoverable materials to becoming waste”, stated Giulio Bonazzi, Chief Executive Officer.

The goal now is to optimize the process at every stage to define the set-up of a future large-scale industrial plant. Aquafil has activated a network of strategic stakeholders to ensure a steady flow of waste materials and build a solid and efficient supply chain that can feed an increasingly virtuous recycling model.

The nylon recovered through this technology will be entirely destined for the ECONYL® regeneration plant, where it will be processed into new regenerated nylon, ready for new textile applications. This is another step toward reducing dependence on virgin resources and making a concrete contribution to reducing the industry’s environmental impact.
 
The nylon waste is collected in locations all over the world and includes industrial waste but also products – such as fishing nets and rugs – that have reached the end of their useful life. Such waste is processed to obtain a raw material – caprolactam – with the same chemical and performance characteristics as those from fossil sources. The polymers produced from ECONYL® caprolactam are distributed to the Group’s production plants, where they are transformed into yarn for rugs carpet flooring and for clothing.

INDA, the Association of the Nonwoven Fabrics Industry, in partnership with International Filtration News magazine, announces the finalists for the inaugural FiltXPO™ Awards. Recognizing outstanding achievements across the entire filtration value chain, the awards celebrate groundbreaking advancements that utilize nonwoven fabrics and technology.

Presented at FiltXPO™, April 29-May 1, 2025, at the Miami Beach Convention Center, Florida, these awards highlight exceptional innovations in three categories:

• Air/Gas Filtration Media
• Water/Liquid Filtration Media
• Filtration Equipment

Each nominated product has demonstrated creativity, uniqueness, technical sophistication, and the potential to significantly advance filtration performance and sustainability. Voting takes place on the International Filtration News website and the deadline to submit votes is April 18, 2025:

FiltXPO Air/Gas Filtration Award

• Hollingsworth & Vose – NanoWave® ESA
  Introducing NanoWave®ESA, an all-synthetic, 3D filter media free from PFAS. This revolutionary product enables production of highly efficient, comfortable, stretchable respiratory protection, suitable for various protective applications.
• Lanaco – EcoStatic® ML Series Filter Media
  Lanaco’s wool-based air filtration solution utilizes advanced electrostatic technology, providing exceptional efficiency and ultra-low pressure drop, even under challenging environmental conditions. USDA-certified as 100% Biobased, EcoStatic® ensures sustainability without sacrificing performance.
• Greentech Environmental LLC – Greentech Filters with ODOGard®
  ODOGard® technology deeply integrates odor-neutralizing polymers into nonwoven and nanofiber filters, offering an innovative, non-toxic approach to indoor air quality. ODOGard® significantly enhances filtration durability and performance.

FiltXPO Water/Liquid Filtration Award

• Ahlstrom – BioProtect™
  Ahlstrom’s sustainable BioProtect™ material offers superior dye-catching performance for laundry applications. Manufactured from 100% naturally derived fibers and OC-Biobinder®, BioProtect™ is both biobased and home compostable, combining premium performance with environmental responsibility.
• Periodic Products, Inc. – MetalXtract® Filter Media
  Using patented Chelok® Polymer Technology, MetalXtract® provides remarkable metal adsorption capabilities—100 to 500 times greater than traditional resins—across a wide pH range. Ideal for wastewater treatment and environmental remediation, this biodegradable solution effectively controls contamination at high flow rates.

FiltXPO Filtration Equipment Award

• Luwa America Inc. – Multi Cell Filter (MCV)
  The space-saving MCV significantly reduces required floor space by approximately 70% compared to traditional drum filters. Its intelligent PLC-controlled design optimizes filter cleaning cycles, reduces energy usage, and substantially cuts operational costs and carbon footprint.
• Oerlikon Neumag – hycuTEC
  Oerlikon Neumag’s innovative hycuTEC technology hydrocharges nonwoven filter media, achieving over 99.9% filtration efficiency with dramatically lower pressure loss and minimal resource consumption. Easy to integrate and retrofit, hycuTEC represents a breakthrough in high-efficiency filtration media production.
• Filtration Advice Inc. – FA-TCO Software
  This cutting-edge software provides comprehensive Total Cost of Ownership (TCO) analysis and predictive modeling for air filtration systems. FA-TCO enables data-driven decisions, extending filter lifespans, reducing operational costs, and enhancing overall sustainability in filtration management.

Finalists will present their innovative solutions at FiltXPO, showcasing breakthroughs that elevate quality, efficiency, and sustainability across the filtration industry.

“We’re delighted to highlight these groundbreaking innovations that promise to reshape the filtration landscape,” said Matt O’Sickey, Ph.D., INDA’s Director of Education & Technical Affairs. “FiltXPO provides the perfect stage to recognize the industry’s most significant advances and inspire future developments.”

It is getting exciting again in Cologne on 12 and 13 March for the cellulose fibres industry. Six new products have been nominated for the popular innovation award.

Every year, the conference organisator nova-Institute together with award sponsor GIG Karasek honours companies that impress with their creativity, technological progress and ecological impact. The aim of the award is not only to recognise the winners’ innovative products, but also to set an example for the courage to innovate.

The nominees’ presentations, the voting and the winner ceremony will take place on 12 March at the Cellulose Fibres Conference 2025. Participants of the conference can vote live for the three winners. More than 220 people are expected to attend.

The Nominees

Fibers365 (DE): Hemp365 – Agricultural Decorative and Carrier Material
The solution “hemp365” is characterised by the development of a cost-effective, plant-based decorative and carrier material through the chemical-free processing of a regional agricultural fibre and the use of resulting short fibres in a wet-laid process, allowing for a massive reduction in the amount of fossil based binders required for strength and functionality. The non fibre content is less than 7 % and is also made from biogenic and biodegradable material. Hemp365 is 100% natural and vegan. It has been designed for consumer (fashion) and industrial applications in cooperation with an automotive OEM.

Releaf Paper France (FR): Releaf Fiber – Eco-Friendly Paper from Urban Fallen Leaves
Releaf Paper France transforms urban fallen leaves into sustainable cellulose fibres, offering an eco-friendly alternative to traditional hardwood pulp. Using proprietary low-temperature extraction, high-quality fibres with excellent paper-forming properties are isolated. With a cellulose content of 32-48 % and properties similar to hardwood, RELEAF fibres are ideal for packaging materials like corrugated paper, boxes, and bags. This innovative process, which requires minimal water and non-aggressive solvents, aligns with circular economy principles, repurposing millions of tons of urban leaf waste annually and supporting global brands in achieving sustainable packaging solutions.

SA-Dynamics (DE): Cellulose Aerogel Textiles – Next-Generation Insulation Materials
Cellulose Aerogel Textiles are revolutionary insulation materials made from 100 % biodegradable cellulose aerogel fibres. These combine the flexibility and ease of processing of traditional fabrics with the superior thermal insulation properties of aerogels by utilising a novel aerogel fibre process. Lightweight, highly efficient, and compatible with conventional textile machinery, they provide a sustainable alternative to fossil-based and animal-derived insulation materials. Fully recyclable and free from microplastic emissions, Cellulose Aerogel Textiles set a new benchmark for circular economy solutions in the textile and construction industries. Initial functional demonstrators were developed through two projects, funded by Biotexfuture and RWTH Innovation, respectively.

Sci-Lume Labs (US): Bylon® – Renewable Circular Fibres from Agricultural Waste
Sci-Lume Labs makes Bylon®, a scalable, circular, biosynthetic fibre. Using highly efficient chemistries to valorise agricultural waste, Bylon® seamlessly integrates into every step of the global value chain – from raw material production through textile manufacturing. Bylon® is distinct from incumbent and next-gen materials because it is simultaneously bio-based; waste-derived; degradable; recyclable; downstream-compatible; and melt-spinnable. Bylon® also offers a unique performance profile by combining the mechanical properties and tunability of traditional synthetics with the moisture properties and circularity of natural fibres. By not requiring changes to the supply chain, Bylon® empowers the industry to reduce its environmental impact – without compromising on quality, performance, or cost.

TMG Automotive (PT): REFIBER – Sustainable Automotive Surface Material
Textile-based composite solutions are a growing trend in the automotive sector, especially for decorative and functional interior applications. Innovative plant-based leather demonstrates this trend, combining sustainability with advanced performance. Developed from a biopolymer matrix combined with cellulose waste, this material transforms waste into a premium, eco-friendly solution. Its textile backing and non-woven laminate backing are also made entirely from cellulose fibres, creating a fully integrated bio-based composite. Designed for car interiors and more, this lightweight, durable and aesthetically versatile material sets a new standard for sustainable design, while satisfying the industry’s growing demand for circular and renewable alternatives.

Uluu (AU): Replacing plastic in textiles with natural, seaweed-derived materials
Uluu is an Australian start-up set to replace plastics with natural polymers called PHAs. Uluu materials are made from a regenerative feedstock: farmed seaweed, thus ending reliance on fossil fuels and land crops. Uluu, in partnership with Deakin University, is developing textiles that perform like synthetic polyester but are truly biodegradable and biocompatible, thus eliminating persistent microplastic pollution in fashion. Importantly, Uluu materials are reusable, recyclable, and most importantly, compostable. They are naturally produced through a unique fermentation process that uses seaweed, saltwater microbes and seawater. Uluu pellets can be directly substituted for plastic (e.g., polyester, nylon) in existing melt spinning equipment, creating yarns that can be knitted or woven into textiles. In addition to fibre-grade pellets, Uluu is also producing other grades of pellets to replace plastics used in e.g., buttons, sunglasses, hair clips and packaging.

Fibre Extrusion Technology Ltd (FET) of Leeds, UK enjoyed a highly successful exhibition at COMPAMED 2024 in Düsseldorf. This was the first time that FET had exhibited at this leading international trade fair for the medical technology supplier sector, a reflection of the company’s growing role in the global medical sector. In 2023-24, over 60% of FET’s turnover was derived from the medical market.

“It is never certain whether a new exhibition will prove to be a successful venture until it is tested in practice” commented FET’s Managing Director Richard Slack, “but we are delighted to report that COMPAMED 2024 exceeded all expectations. In fact, we have already booked a stand for next year’s exhibition in November, albeit in a slightly different location”.

COMPAMED 2024 attracts suppliers of a comprehensive range of high-quality medical technology components, services and production equipment for the medical industry. FET’s expertise in this sector therefore proved to be a perfect fit. With almost 40 serious customer leads taken at the show from both existing and previously unidentified clients, the initial outlook is for a very successful exhibition which will be followed up by future participation at this annual event.

FET’s established expertise lies in laboratory and pilot melt spinning equipment for a vast range of applications, especially precursor materials used in high value medical devices and specialised novel fibres from exotic and difficult to process polymers. In cases where melt spinning solutions are not suitable, FET provides a viable alternative with pilot and small scale production wet spinning systems.

Central to FET’s success has always been its ability to provide customers with advanced testing facilities and equipment at its Fibre Development Centre in Leeds, complemented by unrivalled knowledge and expertise in research and production techniques.

FET has successfully processed over 100 different polymer types and its systems can melt spin resorbable polymers in multifilament, monofilament and nonwoven formats, collaborating with specialist companies worldwide to promote greater sustainability through innovative manufacturing processes.