From the Sector

Tampon for Men by Finnish hygiene product brand Vuokkoset aims to alleviate the distress transgender men feel related to menstruation. The creative partner behind the idea is TBWA\Helsinki. The product was launched during the international Transgender Awareness Week and sparked a discussion in Scandinavia of the inclusivity of the health and wellness industry.

Research has shown that 93% of transgender men have experienced gender dysphoria related to menstruation. With a tampon designed for men, Vuokkoset sparked a vivid conversation in Finland during the International transgender awareness week (Nov 13 to 19, 2023) with an aim to change perceptions of menstruation and reduce the distress it causes to transgender men.

“Marketing has a huge role in shaping the world around us. As Finland’s leading creative agency and the leading global agency collective, we have an immense responsibility in actively making the world more inclusive. Vuokkoset is a brand that shares this value base and was brave enough to put the campaign together with us in just four short weeks” says Heidi Taina, creative director from TBWA\Helsinki.

Trans men and non-binary individuals may still have menstrual cycles, regardless of hormone therapy choices. This highlights the diversity in experiences related to menstruation among different gender identities.

"When I was young, menstruation felt not only strange but somehow wrong. Our culture does not really acknowledge the diversity of menstruating individuals" says DEI consultant and face of the campaign Dakota Robin, who has been through the gender affirming process himself.

The Tampon for Men will be available as a limited edition in Finland and wider distribution will begin in early 2024. Total sales proceeds are donated to Trasek ry, an organization focused on gender diversity and sexual health. A fully gender-neutral tampon product by Vuokkoset is also being considered.

"Menstrual products - from visuality, advertising to store location - are strongly feminine. It’s time to acknowledge the diversity of menstruating individuals" says Sanna Karhu, CEO of Delipap Oy, the company that manufactures Vuokkoset products.

"This is definitely a step in the right direction. By changing attitudes and broadening perspectives, we can also remove discrimination against gender minorities," concludes Dakota Robin.

In August 2023, Australian Research Council (ARC) Chief Research Officer Professor Christina Twomey officially launched the ARC Research Hub for Functional and Sustainable Fibres.

Through collaboration with 16 domestic and international Partner Organisations, the team at the ARC Research Hub will be conducting research across three core themes – Sustainability, Circular Economies, and Extraordinary Functionality.

Led by Deakin University, the ARC Research Hub aims to harness Australia’s research capacity in fibre, textiles, and composite materials to develop materials with enhanced functionality, meeting Australian consumer and industrial demand for advanced fibre capabilities including recycling and re-purposing textile waste.
 
Professor Twomey said that the ARC Research Hub is fundamental to increasing collaboration between Australia’s most innovative researchers and vital industries.

“The ARC has a proud history of supporting outstanding research that benefits the Australian community, and the ARC Research Hub for Functional and Sustainable Fibres is a great example of this,” Professor Twomey said.
 
“In collaboration with industry partners, the research team are building on the work undertaken by the ARC Research Hub for a World-class Future Fibre Industry which ended in 2021 – this continued success is no easy feat.

“This new ARC Research Hub will strengthen productivity and competitiveness of the advanced manufacturing sector and will place Australia at the forefront of a global shift towards functional and sustainable materials.”
 
The ARC is investing $5 million over 5 years under the ARC Industrial Transformation Research Program.

It is expected that the ARC Research Hub will address the immediate need to reduce industry’s reliance on petroleum-derived materials and to reduce the environmental impact of supply chains.

Die AZL Aachen GmbH, bekannter Innovationspartner für Industriekooperationen auf dem Gebiet der Leichtbautechnologieforschung, startet eines neuen Projekts mit dem Titel "Trends und Designfaktoren für Wasserstoffdruckbehälter". Das Projekt wird Fragestellungen der Industrie in Bezug auf die Wasserstoffspeicherung adressieren.

AZL Aachen GmbH, a recognized innovator in lightweight technologies research and industry collaboration, announces the initiation of a new project titled "Trends and Design Factors for Hydrogen Pressure Vessels". The project aims to address industry needs surrounding hydrogen storage.

Hydrogen has gained significant attention as a key technological solution for decarbonization, with high pressure storage and transportation emerging as vital components. Its applications extend from stationary storage solutions to mobile pressure vessels employed in sectors such as transportation and energy systems.

The AZL team, renowned for its high reputation in providing market and technology insights as well as developing component and production concepts in the format of Joint Partner Projects seeks for companies along the whole composite value chain interested in further developing their application know how in this economically highly relevant field.

The project will provide an in depth exploration of market insights, regulatory standards, and intellectual property landscapes. Beyond this, there is a dedicated focus on staying updated with state of the art and advancements in design, materials, and man ufacturing techniques.

An integral component of the project involves the creation of reference designs by AZL´s engineering team. The reference designs will encompass a variety of pressure vessel configurations and will consider a diverse range of materials and production concep ts.

With the scheduled project start in October 2023, and a project timeline of approximately nine months, AZL encourages companies active across the composite value chain to participate. Companies interested in participating or seeking further information should reach out directly to the AZL expert team.

The project "A Dress For Venice" get on the Red Carpet at the Venice Film Festival to advocate for sustainability. September 7th, actress Margot Sikabonyi will wear a dress from the collection designed by conscious designer Tiziano Guardini, illustrated by artist Jacopo Ascari, and produced by Martina Vidal Venezia, with the following materials:

• Bemberg™: The innovative and biodegradable fiber from the Japanese company Asahi Kasei.
• Burano lace: Produced by the historic Martina Vidal Venezia for four generations.

"Returning to Venice and experiencing the emotions of this place and the artists who have enriched it is exhilarating," says Tiziano Guardini. "It's a work based on volumes, shapes, three-dimensionality, colours and materials research… from Mariano Fortuny to the Ottoman Empire's Turcherie."

Illustrator Ascari adds, "I started with a careful study of the works of Canaletto, Guardi and Bellotto, masterpieces of Eighteenth-Century Vedutismo. I portrayed new perspectives on the city's splendour, enhanced by Guardini's vibrant shapes and color choices."

On Thursday, September 7th, at 12:30, in the Veneto Region's room at the Hotel Excelsior on Lido, Elena Donazzan, Councilor for Education, Training, Employment, and Equal Opportunities, will present the project alongside its creators Laura Scarpa and Lorenzo Cinotti of Venezia da Vivere, designer Tiziano Guardini, artist Jacopo Ascari, and actress Margot Sikabonyi.

"We conceived A Dress For Venice for Homo Faber in 2019, to celebrate Venice's 1600 years of craftsmanship," explains Laura Scarpa. "This year, the research extends to sustainable innovation thanks to an international team of designers, artisans and companies," continues Lorenzo Cinotti.

The project reaffirms Venice's role as an international laboratory to reflect on the planet's future. "A Dress For Venice" is a limited-edition collection realized with the support of a network of companies identified by the Tavolo Veneto della Moda (Confartigianato, CNA, Confindustria, Confesercenti and Confcommercio of Veneto), the global platform C.L.A.S.S. (Creativity Lifestyle and Sustainable Synergy), the partnership of Camera Buyer Italia and the media partnership of The Italian Rêve.

The presentation of the collection to buyers will take place at the Marina Guidi showroom in mid-September, while it will have its dedicated exhibition on Friday, October 20th, during the Venice Fashion Week.

"A Dress for Venice" is endorsed by the Comune di Venezia, the Regione del Veneto, and Homo Faber - Fondazione Cologni dei Mestieri d’Arte, which promotes worldwide high craftsmanship and savoir-faire.

Partners in the project Infinity srl and Tessitura Grisotto, renowned Italian textile manufacturers who expertly craft Bemberg™ fiber into exquisite fabrics. Creazioni Digitali, a specialized company in sublimation digital printing, carries out the prints on Bemberg™ textiles with its unique project GreenDrop; with inks that reduces the water consumption.

Other partners include Marina Iremonger, Camera Buyer Italia, and the Tavolo Veneto della Moda, representing Confartigianato, CNA, Confindustria, Confcommercio, and Confesercenti.

To reach its goal of being the world’s leading supplier of enhanced recycled polyethylene terephthalate (PET), gr3n is signing a binding Memorandum of Understanding (MOU) with its shareholder Intecsa Industrial to set up a Joint Venture.

gr3n together with Intecsa Industrial will join forces and build a “First-of-a-Kind” manufacturing facility able to produce 40.000 tons of virgin-like PET, commencing EPC phase in Q4-2024 and aiming to be operational in 2027. gr3n’s chemical recycling technology is capable of processing PET from various industries including textile waste, closing the loop for hard-to-recycle PET applications.

The world’s first industrial-scale MADE PET recycling plant will have the capability to process post-industrial and post-consumer PET waste including hard-to-recycle waste, to produce approximately 40.000 tons of virgin PET chips from the recycled monomers saving nearly 2 million tons of CO2 during its operating life. The post-consumer and/or post-industrial polyesters will be both from bottles (colored, colorless, transparent, opaque) and textiles (100% polyester but also mixtures of other materials like PU, cotton, polyether, polyurea, etc. with up to 30% of presence in the raw textile).

The technical concept of the MADE plant is to break down PET into its main components (monomers) so they can potentially be re-polymerized endlessly to provide brand new virgin PET or any other polymer using one of the monomers. Polymers obtained can be used to produce new bottles/trays and/or new garments, essentially completely displacing feedstock material from fossil fuels, as the recycled product has the same functionality as that derived traditionally. This means that gr3n can potentially achieve bottle-to-textile, textile-to-textile, or even textile-to-bottle recycling, moving from a linear to a circular system.

gr3n’s process has the potential to change the way PET is recycled worldwide, enabling huge benefits for both the recycling industry and the entire polyester value chain. Many efforts have been made in the past to transfer enhanced recycling from research laboratories to the manufacturing industry, but the economics and skepticism of the first adopters have constantly blocked the progress of the proposed solutions. Thanks to the MADE technology developed by gr3n, this approach is now feasible and makes gr3n one of the few companies with the potential to provide a reliable enhanced recycling solution that closes the life cycle of PET, and also offers food grade polymer material, processes a large variety of waste and reduces the carbon footprint of these materials usually destined for incineration or landfill.

DOMO Chemicals, a global leader in polyamide-based engineered material solutions and services, has published its latest annual Sustainability Report, detailing progress on its sustainability journey, including notable reductions in greenhouse gas emissions. DOMO’s mission is to engineer polyamide solutions that contribute to a better, more sustainable world. In publishing its second annual Sustainability Report, DOMO enters a new phase in its decarbonization quest, with confidence in its long-term aspiration to set the standard for sustainability in the industry by 2030.

Notably, the Sustainability Report details DOMO’s achievements in 2022 toward realizing its 2030 sustainability goals. In terms of decarbonization and broader environmental achievements, against a 2019 baseline, the company:

• Reduced scope 1 and 2 greenhouse gas emissions by 27%, making significant progress toward its target of 40% reduction by 2030 and carbon neutrality by 2050
• Increased renewable electricity throughout operations to 12%
• Reduced waste by 24%
• Lowered water intake by 4.5%

In addition, as a provider of polyamide-based sustainable and circular solutions, DOMO:

• Achieved more than 11% of engineered materials sales based on sustainable feedstock, making excellent progress toward its 2030 target of 20%
• Allocated 25% of research and development resources to enhanced recycling

Moreover, fostering talent and ensuring the well-being of its workforce as a responsible employer is essential for sustainable growth, and 2022 highlights include:

• Increased share of women in senior positions from 22% in 2021 to 30% in 2022
• Providing a safe and inclusive working environment that encourages personal and professional development as well as a global safety culture

• Project from the Global Organic Textile Standard, European Space Agency and Marple will use AI and satellite imagery to detect organic versus non-organic cotton fields
• Innovative demonstrator project explores the potential of remote monitoring to strengthen integrity and development of organic cotton cultivation
• Project will run across India with first results expected by the end of 2023

In a world first, the Global Organic Textile Standard (GOTS), European Space Agency (ESA) and AI company Marple have today launched a new demonstrator project that aims to show the potential for remote satellite monitoring of organic cotton cultivation systems.

The project, to be carried out under ESA’s Business Applications and Space Solutions (BASS) programme, will train artificial intelligence (AI) to use ESA satellite data to detect cotton fields across India and automatically classify them according to their cultivation standard. By integrating standardised yield metrics, this innovative approach will also enable GOTS to generate realistic estimates of organic cotton yields in specific areas.

Integrated with existing GOTS measures, this project will enable GOTS to further enhance the integrity of organic cotton by developing advanced risk assessment technology for organic certification and preventing fraud from the beginning of the supply chain. “It is an honour and very exciting to be a partner in this ESA Demonstration Project, and it is living up to our claim to be pioneers serving the sustainable textile sector to enable continuous improvement. Technologies like this will be a game changer regarding the integrity and promotion opportunities of organic cotton.” says Claudia Kersten, Managing Director of GOTS.

The project's anticipated impact extends beyond identifying certified organic cotton fields. It is expected to also empower GOTS to recognise cotton fields that have not yet obtained organic certification but possess the potential for a seamless transition to organic cultivation, thanks to their utilisation of traditional and ecologically friendly farming practices. This would enable GOTS to bring a greater number of farmers – particularly those of a smaller size – into the certified organic sector and supply chains, creating new economic opportunities for small-scale farmers and their communities while also helping the textile sector to meet growing consumer demand for organic cotton. Guillaume Prigent, Business Development and Partnerships Officer at the European Space Agency, adds: “This project highlights how space solutions can have a positive impact on the world and is the kind of innovation that ESA supports through its Business Applications and Space Solutions programme.”

The project will run across the distinct cotton growing regions in India, with first results expected by the end of 2023.

India project builds on successful Uzbekistan feasibility pilot
The project is co-financed by GOTS and ESA, in collaboration with Marple GmbH, a German software development firm that developed the CoCuRA (Cotton Cultivation Remote Assessment) software with ESA BASS and successfully piloted it in a feasibility project in 2021 in Uzbekistan.

That venture showed how the trained AI was able to accurately differentiate cotton fields from other crops using only satellite images and sensor data, as well as whether the cotton fields were cultivated organically.

This spurred considerable interest from GOTS, which has committed to the development of cutting-edge technologies that can improve the integrity of the organic textile sector, especially cotton. Dr David Scherf, co-founder of Marple, said: “All our projects strive to leverage advanced technology for a positive impact on the environment and society. We are therefore delighted that our CoCuRA technology, which emerged from a moonshot research project, is being applied in a practical and impactful way. We are excited about the opportunity to work with the exceptional team at GOTS and further strengthen our successful partnership with ESA.”

How does a future-proof, circular and sustainable plastics economy look like? The answer is a balance ranging from plastics reduction to a sustainable use of recyclable plastics. After all, the increasing demand for plastics in high-value applications such as food packaging, car parts or synthetic textiles requires a holistic change. With four strategic approaches, researchers from the German institute Fraunhofer UMSICHT and the Dutch institute TNO now provide insights into how this future scenario could look like in their recently published white paper "From #plasticfree to future-proof plastics". Both organizations also start a hands-on platform for plastics in a circular economy: European Circular Plastics Platform – CPP aimed at removing existing barriers and sharing of promising solutions.

Versatile and inexpensive materials with low weight and very good barrier properties: That's what plastics are. In addition to their practical benefits, however, the materials are also associated with a significant share of mankind's greenhouse gas emissions. The production and use of plastics cause environmental pollution and microplastics, deplete fossil resources and lead to import dependencies. At the same time, alternatives - such as glass packaging - could cause even more environmental burden or have poorer product properties.

Researchers from TNO and Fraunhofer UMSICHT have elaborated a white paper that provides a basis for the transformation of plastics production and use. They consider the integration of the perspectives of all stakeholders and their values and the potential of current and future technologies. In addition, the functional properties of the target product, the comparison with alternative products without plastics, and their impact in a variety of environmental, social and economic categories over the entire life cycle are crucial. In this way, a systematic assessment and ultimately a systematic decision as to where we can use, reject or replace plastics can be realized.

Strategies for the Circular Economy
As a result, the researchers describe four strategic approaches for transforming today's largely linear plastics economy into a fully circular future: Narrowing the Loop, Operating the Loop, Slowing the Loop, and Closing the Loop. By Narrowing the Loop, the researchers recommend, as a first step, to reduce the amount of materials mobilized in a circular economy. Operating the Loop refers to using renewable energy, minimizing material losses, and sourcing raw materials sustainably. For Slowing the Loop, measures are needed to extend the useful lifetime of materials and products. Finally, for Closing the Loop, plastics must be collected, sorted and recycled to high standards.

Individual strategies fall under each of the four approaches. While the ones under Operating the Loop (O strategies) should be applied in parallel and as completely as possible. According to the researchers, the decision for the strategies in the other fields (R strategies) requires a complex process: “Usually, more than one R-strategy can be considered for a given product or service. These must be carefully compared in terms of their feasibility and impact in the context of the status quo and expected changes”, explains Jürgen Bertling from Fraunhofer UMSICHT. The project partners have therefore developed a guiding principle for prioritization based on the idea of the waste hierarchy.

A holistic change, as we envision it, can only succeed if science, industry, politics and citizens work together across sectors. “This implies several, partly quite drastic changes at 4 levels: legislation and policy, circular chain collaboration, design and development, and education and information. For instance, innovations in design and development include redesign of polymers to more oxygen rich ones based on biomass and CO2 utilisation. Current recycling technologies have to be improved for high quantity and quality recycling,” explains Jan Harm Urbanus from TNO.

Hands-on platform for cross-sector collaboration
“Therefore, in a next step, TNO and Fraunhofer UMSICHT are building a hands-on platform for plastics in a circular economy: European Circular Plastics Platform – CPP," explains Esther van den Beuken, Principal Consultant from TNO. It will give companies, associations and non-governmental organizations the opportunity to work together on existing barriers and promising solutions for a Circular Plastics Economy. The platform will also offer its members regular hands-on workshops on plastics topics, roundtable discussions on current issues, and participation in multi-client studies on pressing technical challenges. Regular meetings will be held in the cross-border region of Germany and the Netherlands as well as online. The goal is to bring change to the public and industry.

“Grow Your Couture” by Piero D'angelo, the winning project of the IMAGINING SUSTAINABLE FASHION (ISFA) competition was announced during a webinar broadcast on 18 May attended by Giusy Bettoni CEO of C.L.A.S.S. Eco Hub, Anna Detheridge President of Connecting Cultures and ISFA ambassadors Valentina Suarez, co-founder and CEO of Universo Mola and Vishal Tolambia winner of the 2022 edition.
 
Piero D'angelo's project was the best among the 110 proposals received after the international call for proposals launched on 27 October 2022.
 
Piero D'Angelo, 36, a graduate in Fashion Womenswear from the Royal College of Art in London and in Textile Design from Central Saint Martins, is a Fashion and Textile Designer with a research focus on biotechnology in the fashion industry. In 2022 he founded his Fashion & Textile Design studio experimenting with a multidisciplinary approach on the importance of natural materials and Biodesign. From 2018 to 2022 Piero D'Angelo was a resident and then Product Researcher & Developer at Open Cell (Biotech Research Park), a biotech start-up community in London. He was awarded the Dorothy Waxman Textile Design Prize in 2015 and semi-finalist for the LVMH Prize in 2020.
 
In his communication project, 'Grow Your Own Couture' D'Angelo imagines a future scenario where it will be possible to grow one's own clothes through living organisms such as lichens that are able to absorb pollution. But the project also wants to communicate a return to nature and above all care and protection towards it. In fact, the user is not simply a user of fashion, but through a kit is part of the process of growth, care and creation of the garment, thus abandoning the traditional paradigms of fashion. The project wants to completely re-imagine the way fashion could be designed, produced and used, proposing not only a product, but also a system that wants to collaborate with nature instead of polluting or exploiting it.

Indorama Ventures Public Company Limited, a global sustainable chemical producer, was upgraded to "A" from "BBB" in MSCI’s ESG rating, reaffirming the company’s effective management of sustainability related risks and opportunities.

MSCI (Morgan Stanley Capital International), an independent provider of research-based indices and analytics, ranked Indorama Ventures among the top 14% of 65 companies worldwide in the commodity chemicals industry. The rating has placed it in the top quartile for opportunities in clean tech, water stress, corporate governance, and corporate behavior.

Indorama Ventures is committed to reducing water intensity by 10% by 2025 and 20% by 2030. It developed a Water Risk Assessment Report on its contributions to achieving sustainable management of water targets and the United Nations Sustainable Development Goals (UN SDGs). For improved corporate governance, the company provides whistleblowers with protection from retaliation, and has policies on business ethics and anti-corruption. Relating to opportunities in clean tech, Indorama Ventures’ is investing in recycling technology and biomass feedstock under its Vision 2030, and is also investing in operational efficiencies, carbon capture technology, renewable energy, and phasing out coal to reduce Scope 1 and Scope 2 greenhouse gas emissions.

MSCI ESG Ratings aim to measure a company’s resilience to long-term ESG risks. Companies are scored on an industry-relative AAA-CCC scale across the most relevant key issues based on a company’s business model. Investors, including pension funds, sovereign wealth funds, endowments, and asset managers, commonly consider the ratings to assess financial risks in the investment process.