Revolutionary biomaterials
for forward thinkers.
Performance
meets possibility.
Using cutting-edge technology modeled on nature’s own design, Polybion™ grows premium, high-performance biomaterials from fruit waste.
From linear to circular
From leftover to constructive
From old ways to Celium™
We believe biology is the best tool to face our global challenges. We use locally produced agro-industrial fruit waste as raw material to craft forward-thinking biomaterials such as Celium™- Premium Cultivated Cellulose. By manufacturing with the building blocks of life and circularizing supply chains, we produce a superior material while prioritizing our planet.
Natural systems are cyclical; waste becomes nutrients that initiate new growth. By learning from nature, Polybion™ developed a production model that is not linear but a loop, simultaneously alleviating three major environmental problems: livestock, food waste, and plastic. This represents a paradigm shift from centuries of resource-mining practices to the regenerative cultivation of resources. Polybion™ is proud to be leading this charge.
Founded by brothers Axel and Alexis Gómez Ortigoza with Bárbara González Rolón, PhD, Polybion™ is a diverse group of biotechnologists, chemists, biologists, engineers, financiers, creatives, designers, and political scientists. We take inspiration from natural processes and organisms, and we share a common dream to create a better world.
Impact requires scale
Bio innovations and sustainable solutions face a common challenge: scalability.
By 2030, as the consumer class reaches nearly 5 billion, affordability and accessibility become crucial for next-gen materials like Celium™ - Premium Cultivated Cellulose.
In 2022, we reached a pivotal milestone by launching FOAK I, the first-ever bacterial cellulose production facility. Spanning 14,000 sq. ft., it's designed to produce 1.1 million sq. ft. of Celium™ annually.
Our scaling strategy is built on three pillars: volume, consistent quality, and competitive pricing. Unlike other biomaterials, our process uses minimal infrastructure and fruit waste, leveraging existing large-scale fermentation equipment. This not only makes scaling up more feasible but also ensures our technology can be easily adopted worldwide.
During 2024, we're focusing on automating our processes to enhance efficiency, quality, and reduce cycle times.
Where biology meets creativity, the future unfolds.
Celium™
Cel (derived from the word cellulose, the most abundant organic polymer on Earth) + ium (the Latin suffix used in chemical elements)
Celium™- Premium Cultivated Cellulose, is grown by feeding bacteria with agroindustrial fruit waste. A versatile textile with endless design possibilities, it can be customized by color, graining, embossing, and water resistance—all while preserving its exceptional strength.
Celium™ is vegan and organic, and we control the thickness through its growth, making it easy to tailor. Due to its biological nature, each piece of Celium™ is unique and distinct as a fingerprint, lending it the hallmark of luxury.
Nature chose cellulose to structure many of its most precious creations. We’ve captured that wisdom in Celium™.
Technology
We industrialized cellular agriculture to biofabricate Celium™. Combining material science with bioengineering, our technology is scalable, modular, and high yielding.
In cellular agriculture, cells from fungi, bacteria, or mammals consume nutrients in a sterile environment that promotes growth. We grow Celium™ by feeding bacteria with agro-industrial fruit waste. But first, we set up the perfect environment for the cells to self-organize and they create the cellulose structure as a metabolic by-product. Once formed, Celium’s cell-based membrane undergoes a sustainable stabilization process to achieve its high-performance characteristics.
Our production model is EPA, REACH, and ZDHC compliant and concentrated within a 30-mile radius, dramatically reducing our carbon footprint. There is currently enough of the fruit waste we use to produce 168,000,000 square feet of Celium™ annually (and we have identified three other types of local fruit waste equally abundant). With zero hazardous chemicals released in any part of the process, nor significant biomass outputs between growth cycles, Celium™ is as circular as it gets.
Biology Meets Design: Polybion presents Celium™ at WDCD MX 2024
- Published on
- October 8, 2024
At What Design Can Do México (WDCD MX) 2024, Polybion presented Celium™, our Premium Cultivated Cellulose, as a winner of the Redesign Everything Challenge. Our Co-Founder and Co-CEO, Axel Gómez Ortigoza, took the stage to showcase how Polybion is pushing the boundaries of material innovation by designing with biology.
We were especially proud to share our vision in our home country, inspiring a new generation of innovators and designers right here in Mexico. As a company born from the desire to revolutionize the material world, it was an honor to share our mission with an audience of experts, creatives, and young visionaries eager to reshape the future.
During his pitch, Axel emphasized how designing with biology is not just an innovative approach—it’s a powerful tool to address global challenges. From fruit waste to locally sourced biomaterials, Celium™ represents the next step in creating more sustainable materials that can transform industries.
We are deeply grateful to WDCD MX for providing us with such a dynamic platform to amplify our message. By bringing together the worlds of design and sustainability, this event creates the perfect space to highlight the potential of biomaterials like Celium™. Our mission at Polybion is clear: to revolutionize the material world with biology—and we are excited to keep moving forward with the support of platforms like WDCD that help us reach even further.
Read more about our journey with Celium™ and how we are using biology to create the materials of the future.