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Faux-Leather Elegance: Innovatively Crafted by Bacteria


Заголовок: "Revolutionizing Fashion: Ganni's Unique Bacterial Cellulose Jacket Made from Industrial Fruit Waste"

In a groundbreaking collaboration between Danish fashion brand Ganni and Mexican biomaterials company Polybion, an extraordinary prototype emerges from an unexpected source: bacterial fermentation of industrial fruit waste. This unconventional yellow leather jacket, a proof of concept for future collections, defies expectations by not mimicking traditional leather but instead introducing a completely novel material. Alexis Gómez-Ortigoza, co-founder of Polybion, notes the jacket's appeal lies in its distinct feel, neither akin to leather nor plastic.

While employing methods reminiscent of traditional leather production, this blazer boasts a significantly smaller carbon footprint, maintaining strength and breathability. Gómez-Ortigoza asserts its significance, proclaiming it as the "first jacket ever made by a global brand out of bacterial nanocellulose," marking a pivotal moment for the biomaterials industry.

Polybion's journey, initiated by Gómez-Ortigoza and his brother Axel, originally focused on mycelium, but a serendipitous encounter with kombucha redirected their attention. The bacterial biomass, named Celium, is derived from kombucha, a fermented tea. Intriguingly, the bacteria are nourished with scraps from local canned fruit production plants, primarily mango peels, creating a symbiotic relationship with the abundant fruit waste in central Mexico.

This sustainable and innovative approach positions Ganni and Polybion at the forefront of fashion technology, challenging norms and setting a new standard for environmentally conscious and uniquely crafted apparel.

"The Eco-Fashion Revolution: Crafting Sustainable Luxury with Bacterial Nanocellulose"

In a groundbreaking eco-fashion initiative, Polybion transforms industrial fruit waste into a futuristic material called Celium, a bacterial nanocellulose matrix that challenges traditional leather production. The process begins with feeding bacteria with discarded fruit scraps, a resource that would otherwise contribute to landfills and methane emissions. After a two-week period of bacterial reproduction and nanocellulose generation, the material undergoes an eco-friendly tanning and finishing procedure.

The environmental impact of Celium is profound. The production emits only a quarter of the emissions associated with the greenest leather production methods. Furthermore, when factoring in the emissions saved by repurposing fruit waste, the entire process becomes carbon negative. This innovation aligns with the sustainability goals of luxury brands, offering a natural-feeling material that breathes and wears out similarly to traditional leather but without the use of chromium or toxic chemicals.

Polybion's ambitions extend beyond textiles, with ongoing exploration into potential applications like cardboard, thread, construction wood, and wound dressings. Despite this broader vision, the focus remains on the leather alternative due to its faster time to market.

Ganni, at the forefront of this revolution, showcases a one-of-a-kind blazer as a proof of concept. Unfortunately, this particular piece is not for sale, but the brand is set to release garments made from Celium in 2024. Lauren Bartley, Ganni’s Sustainability and CSR Director, reveals the brand's commitment to a 50% absolute carbon reduction by 2027 and aims to incorporate 10% of alternative fabrics into its main collection by 2025.

While the blazer mirrors previous successful silhouettes worn by icons like Michelle Obama, the yellow color choice maintains the vibrant impact of previous versions. As the fashion industry moves towards sustainability, Ganni and Polybion's collaboration represents a stride toward a greener, more innovative future.

"Polybion's Sustainable Fashion Revolution: A Sneak Peek into Future Collaborations"

Polybion, the trailblazer in sustainable fashion, is set to embark on new ventures with prominent fashion brands, though the names remain undisclosed. Alexis Gómez-Ortigoza, co-founder of Polybion, tantalizingly hints at collaborations with the world's largest sportswear company and three prestigious French luxury fashion houses. Detailed announcements are expected to follow next year, promising a fusion of innovation and sustainability within the fashion industry.

As fashion houses increasingly prioritize sustainable practices, the exploration of innovative materials becomes paramount. Gómez-Ortigoza emphasizes the industry's shift towards using agricultural and food waste as a viable raw material to address the climate crisis. Notably, the textile industry is witnessing a revolution, repurposing waste streams to create cellulose fibers. Polybion, committed to environmental responsibility, ensures that its supply chain operates within a 30-mile radius, embodying a dedication to local production.

Kate Goldsworthy, a Circular Design and Innovation professor at the University of the Arts London, commends the industry's move towards cellulose-based textiles but underscores the challenge of scaling up production and fostering consumer acceptance. She acknowledges Polybion's holistic approach to sustainability, emphasizing the need for broader industry changes.

In contrast, Kate Fletcher, a professor at the Royal Danish Academy and Oslo Metropolitan University, emphasizes that while innovative materials like Celium contribute to lower-impact clothing, the core sustainability challenge lies in addressing the fashion sector's year-on-year growth and reducing overproduction. Despite these challenges, Polybion's endeavors represent a significant step towards a more sustainable and environmentally conscious future for the fashion industry.

"In conclusion, the collaboration between Ganni and Polybion marks a pivotal moment in sustainable fashion. The creation of a one-of-a-kind blazer using bacterial nanocellulose derived from industrial fruit waste showcases the potential of innovative materials to redefine the industry. Polybion's commitment to environmental responsibility is evident in its holistic production approach, utilizing local resources and minimizing carbon emissions.

Moreover, the success of Celium as a unique, organic material provides a glimpse into a future where fashion can be both luxurious and environmentally conscious. The anticipation surrounding Polybion's plans for collaborations with major sportswear and luxury fashion brands adds an element of excitement to the sustainable fashion landscape, promising further innovations in the coming year.

However, as the industry embraces alternative materials, experts caution that addressing the root cause of sustainability challenges requires a broader shift in the fashion sector. Overcoming issues of overproduction and the continuous growth of the industry remains crucial for lasting positive impacts. Despite these challenges, Polybion's pioneering efforts and the industry's collective exploration of eco-friendly materials signal a positive step towards a more sustainable and responsible future for fashion."