Supported by
Investors
Partners, accelerators & programs
Bio-based materials that perform at a fraction of the cost.
Cellulose is the most abundant organic compound on Earth. Our patented process functionalizes cellulose-based materials to replace toxic and/or unsustainable materials — such as plastics, silicone, waxes or PFAS — with recyclable alternatives industries have been waiting for.
The technology
A lotus leaf repels water not through coating, but through molecular architecture.
Our approach with cellulosic materials is similar. Our solvent-free patented process covalently bonds bio-sourced long-chain fatty acids to fibres in less than 0.1 seconds — offering recyclable and very competitive alternatives to plastics, silicones, waxes, PFAS and more.
Applications
Our technology is a platform — working across many existing and in-development substrates to offer compelling, sustainable material alternatives for a wide range of industries.
Personal hygiene products, personal protection equipment and prophylactic solutions — biodegradable, breathable, anti-germ barriers without the plastic.
Single-use packaging, water-resistant cardboard and grammage reduction — alternatives to plastics and waxes, recyclable in the standard paper stream.
Silicone-free release surfaces for labels, tapes and banknotes — recyclable in the standard paper stream.
Water-repellent fabrics that are breathable, durable and fully bio-based — replacing PFAS and synthetic treatments.
Functionalized cellulose membranes for desalination and oil spill remediation — engineered performance for critical water-treatment and environmental challenges.
Moisture-resistant bio-based building materials — insulation, panels and wraps that perform without petroleum-derived barriers.
Supported by
Investors
Partners, accelerators & programs
Work with us
We work with industrial partners, startups and research centers to validate our technology on their specific feedstocks. Pilots start with a conversation.