Top 50 Biodegradable Polymer in Europe

Krill Design supplies REKRILL®, a patented biodegradable polymer made from agro‑food by‑products that can replace conventional engineering plastics such as PP, ABS, PET, PVC, PC and HDPE in standard molding and extrusion processes without equipment changes. The material offers comparable mechanical performance, is fully compostable in marine environments, and reduces CO₂ emissions by up to 67 % per kilogram, enabling OEMs and brand manufacturers to meet sustainability requirements.

Paques Biomaterials develops a biodegradable biopolymer, Caleyda®, using microbial fermentation of organic residual streams without genetic modification or fossil resources. This technology provides a natural alternative to conventional plastics, effectively eliminating harmful microplastics and supporting a circular economy.

The startup develops biodegradable and compostable products from waste crustacean shells using sustainable bio-polymer technology. This approach addresses plastic pollution by providing environmentally friendly alternatives that can decompose in soil, enriching it as a natural fertilizer.

Polymateria develops a proprietary technology that fully biodegrades conventional plastic packaging into an earth-friendly wax within a controlled timeframe, preventing the formation of microplastics. This solution addresses the global issue of plastic pollution by ensuring that plastics safely return to nature if not recycled.

Xampla develops Morro™ materials, natural and biodegradable substitutes for traditional plastics, using plant-based feedstocks that require no chemical modification. These materials address the issue of plastic pollution by fully biodegrading at the end of their life cycle, effectively turning into nutrients for soil microorganisms.

FlexSea develops a home compostable biopolymer material derived from sustainably sourced red macroalgae to replace conventional plastic packaging. This solution addresses ocean pollution and waste by providing a biodegradable alternative that degrades naturally within weeks and poses no harm to wildlife or humans.

traceless materials produces traceless®, a fully plant-based and home compostable material derived from agricultural by-products, designed to replace conventional plastics in various applications. This technology addresses plastic pollution by providing a biodegradable alternative that disintegrates naturally within weeks, significantly reducing climate emissions throughout its lifecycle.

Sulapac develops biodegradable materials that replace conventional oil-based plastics in various applications, including packaging and cosmetics. By utilizing 100% biobased materials, Sulapac significantly reduces carbon footprints and eliminates microplastic pollution, offering a sustainable alternative without compromising functionality or aesthetics.

Notpla develops biodegradable packaging materials using a natural seaweed coating, which allows their products to decompose within weeks, unlike traditional plastic. This technology addresses the environmental impact of single-use plastics by providing sustainable alternatives that leave no harmful traces.

Great Wrap produces compostable cling wrap using biopolymers derived from potato waste, providing an environmentally friendly alternative to traditional plastic wraps. This product addresses the growing issue of plastic pollution by offering a sustainable packaging solution for both home and business use.

Kelpi develops bioplastic packaging using a seaweed-derived coating that provides a superior water barrier, offering a sustainable alternative to fossil-fuel plastics. This solution addresses the environmental impact of single-use plastic packaging by being marine-safe and home-compostable.

FibriTech develops biodegradable materials using a proprietary process that transforms cellulose fibers into 3D molded structures, providing a sustainable alternative to traditional plastics. This technology addresses the environmental impact of plastic waste by offering fossil-free materials that can be tailored for various applications, including agriculture and absorbent products.

The startup develops sustainable plastic materials specifically for healthcare applications, utilizing renewable, fully degradable, and recyclable compounds that provide rigidity, surface hardness, and transparency. This enables medical manufacturers to minimize environmental impact while adhering to stringent safety and quality standards.

The startup specializes in producing biodegradable materials through molecular engineering and green chemistry, utilizing artificial intelligence to optimize material properties. This approach enables industries such as agriculture, health, and electronics to transition to sustainable alternatives that reduce environmental impact.

Calyxia manufactures biodegradable microcapsules and microparticles that enhance the performance of agricultural, consumer care, and advanced materials products while meeting sustainability goals. Their technology addresses the issues of microplastic pollution and inefficient product delivery by providing eco-engineered solutions that improve crop yields, sensory experiences, and material functionalities.

Provides automated, ISO/IEC 17025:2017 accredited biodegradability testing services using AI-driven prediction models and high-throughput screening methods. These technologies reduce costs, improve efficiency, and shorten turnaround times, enabling faster development and certification of biodegradable materials for R&D and regulatory compliance.

The startup develops bio-based packaging materials using green processing technology that eliminates toxic chemicals, providing sustainable alternatives to single-use plastics. Their compostable food packaging products offer organizations a measurable reduction in environmental impact compared to conventional plastic options.

This startup manufactures biodegradable packaging products using bio-resin and coated paper as sustainable alternatives to single-use plastics. Their solutions aim to significantly reduce plastic pollution by providing commercial clients with effective substitutes for millions of plastic straws.

Bloom Biorenewables utilizes advanced biomass conversion technology to produce pure, non-condensed lignin biopolymers, offering a sustainable alternative to petroleum-based products. This approach addresses the environmental impact of fossil fuel dependency by providing renewable materials for applications in nutraceuticals, bioplastics, and biofuels, significantly reducing CO2 emissions.

Greentech licenses Dry Molded Fiber technology to produce low-cost, high-performance fiber-based packaging that is recyclable, compostable, and biodegradable. This technology significantly reduces CO2 emissions and resource consumption compared to traditional single-use plastics, addressing the urgent need for sustainable packaging solutions.

Modern Synthesis utilizes a patent-pending biotechnology process that harnesses bacteria to convert agricultural sugars into customizable nanocellulose-based materials, providing a sustainable alternative to animal-derived and fossil-fuel-based textiles. This approach addresses the environmental impact of traditional fabrics by offering biodegradable, plastic-free options that significantly reduce greenhouse gas emissions and plastic pollution.

Lignin Industries transforms lignin, a by-product of the forest and agricultural industries, into Renol®, a thermoplastic biomaterial that can replace fossil-based plastics in various applications. This technology enables manufacturers to reduce fossil fuel dependency and lower CO2 emissions while utilizing existing production machinery for a seamless transition to sustainable materials.

Naturbeads manufactures biodegradable cellulose microspheres to replace plastic microbeads used in cosmetics, detergents, and other products, addressing the issue of microplastic pollution that harms marine ecosystems. The company utilizes a sustainable production process that sources materials from certified forestry and agricultural waste, ensuring a circular and environmentally friendly approach.

Nature's Principles utilizes a patented fermentation platform to convert diverse residual feedstocks into bio-based lactic acid, a versatile chemical used in bioplastics and food preservation. The company addresses the challenge of waste management by transforming side streams into valuable products, promoting a circular economy in chemical production.

Solena Materials designs proteins using deep learning models to create high-performance, biodegradable fibers that are not derived from oil. This technology addresses the environmental impact of synthetic fibers in the fashion industry, which contribute to greenhouse gas emissions and microplastic pollution.

Woamy develops cellulose-based biofoam from wood and agricultural waste, offering a biodegradable and recyclable alternative to traditional packaging materials. This technology provides a sustainable solution to the environmental impact of plastic packaging by delivering strong, lightweight, and customizable protective packaging options.

baCta produces carbon-negative natural rubber by utilizing engineered microorganisms that convert CO2 and renewable feedstocks into isoprene, which is then polymerized into high-quality rubber. This technology addresses the unsustainable nature of traditional rubber production, offering a resilient and hypoallergenic alternative while significantly reducing carbon emissions.

Evoralis utilizes a unique ultrahigh-throughput screening platform to rapidly identify and enhance enzymes capable of breaking down plastics into reusable building blocks. This technology accelerates the discovery of plastic-degrading enzymes by up to 1,000 times compared to traditional methods, addressing the urgent need for sustainable plastic recycling.

This startup produces biodegradable packaging and decorative materials using hemp stalks and mycelium, which decompose in soil within a month. By providing an eco-friendly alternative to plastic packaging, the company enables businesses to enhance their sustainability efforts while maintaining aesthetic appeal.

VEnvirotech converts organic waste into biodegradable bioplastics using advanced biotechnological methods that optimize bacterial production processes. This approach addresses the significant issue of food waste, transforming it into sustainable materials that reduce reliance on petroleum-based plastics.

GAIA BioMaterials manufactures Biodolomer, a limestone-based biodegradable material that mimics the properties of plastic without leaving microplastics and significantly reduces CO2 emissions during decomposition. Their products, including pouches, trays, and bottles, provide sustainable alternatives to traditional plastic packaging, addressing the environmental impact of plastic waste.

CysBio utilizes metabolic engineering and synthetic biology to develop bacterial cell factories that convert renewable feedstocks into commodity chemicals and novel materials. Their technology addresses the need for sustainable production of amino acids, functional polymer precursors, and biodegradable antifouling agents, enhancing the efficiency and environmental impact of chemical manufacturing.

Foamlab manufactures fully compostable nanocellulose foams using a microbial fermentation platform that produces bacterial nanocellulose with tunable density, rigidity, and porosity. The resulting foams deliver mechanical strength, thermal and acoustic insulation comparable to conventional polymer foams while being biodegradable under industrial composting, enabling manufacturers in packaging, building insulation, automotive, aerospace, and consumer goods to replace petro‑based foams with a sustainable, performance‑matched material.

Outlander Materials utilizes biotechnology to convert food waste, particularly from breweries, into compostable materials like UnPlastic, which serve as non-toxic alternatives to single-use plastics. This process addresses the issue of plastic pollution by creating biodegradable products that do not break down into harmful microplastics, thereby promoting a circular economy.

The startup develops renewable, recyclable, and biodegradable materials from agricultural waste, utilizing vegetable and biodegradable fibers to create strong and durable alternatives to plastic and wood. This addresses the environmental impact of plastic pollution and the unsustainability of traditional wood products by providing a non-toxic solution for various applications.

Ecoroots utilizes mycelium, the filamentous root network of mushrooms, to produce biodegradable materials that replace conventional plastics in packaging. This approach addresses plastic pollution by offering a compostable solution that breaks down into nutrients within weeks, promoting a circular economy.

B4Plastics specializes in the development and production of biopolymers using bio-based building blocks, enabling the creation of customized biomaterials for various applications. The company addresses the need for sustainable plastic alternatives by offering scalable solutions from research and development to bulk production and licensing.

This startup manufactures a biodegradable laminating film made from renewable resources like corn, featuring a water-soluble, toxin-free glue layer tailored for industrial applications. The film provides an eco-friendly alternative to traditional plastics, facilitating easier recycling and reducing environmental pollution across various industries.

Polyose Bio utilizes synthetic biology and metabolic engineering to convert food waste into high-value sugar polymers, significantly reducing the environmental impact of traditional production methods. This process not only addresses the 30 million tons of food waste sent to landfills annually in the U.S. but also lowers the carbon footprint of sugar polymer production by 95%.

The startup develops biodegradable fabric packaging made from agricultural residues, suitable for applications such as injection molding and blown containers. This technology provides a sustainable alternative to single-use plastics, helping businesses reduce CO2 emissions and operational costs.

Greenfib produces biodegradable alternatives to petroleum-based plastics using plant-derived materials, significantly reducing fossil fuel dependency. This technology minimizes environmental pollution from traditional plastic waste, offering a sustainable solution for industries reliant on plastic products.

The startup develops biodegradable superabsorbent polymers that absorb and retain significant amounts of fluids while decomposing naturally. These microplastic-free polymers provide a sustainable alternative for various industries, enabling the creation of environmentally friendly products without compromising performance.

Bloom Biotech uses closed‑loop photobioreactors to cultivate microalgae and enzymatically extract cellulose‑like biopolymers that can be spun into yarns compatible with standard textile machinery. The resulting fibers are carbon‑negative, biodegradable, and provided with a digital material data sheet API that supplies mechanical and dyeability specifications for apparel brands and manufacturers.

Ecohelix utilizes a patented technology to extract hemicellulose and lignin from wood industry byproducts, converting them into high-performance WOODMER® biopolymers. This process provides sustainable alternatives to fossil-based materials in packaging, construction, and other applications, significantly reducing greenhouse gas emissions.

This startup develops biodegradable packaging materials made from sugar cane, recycled paper, and PLA to replace single-use plastics in the food service industry. Their products, including takeaway boxes, plates, cutlery, and cups, enable businesses to minimize waste and enhance their sustainability efforts.

Toraphene develops biodegradable and compostable packaging using graphene nano-technology, creating bags that are stronger and completely leak-proof compared to traditional plastic. This innovation addresses the environmental impact of plastic waste by providing a sustainable alternative that decomposes naturally, reducing landfill contributions.

Toraphene develops biodegradable and compostable packaging using graphene nano-technology, creating bags that are stronger and completely leak-proof compared to traditional plastic. This innovation addresses the environmental impact of plastic waste by providing a sustainable alternative that decomposes naturally, reducing landfill contributions.

Teysha Technologies develops a patented platform of second-generation biopolymers that utilize modified natural monomers to create fully biodegradable plastic substitutes. This technology addresses plastic pollution by providing a renewable alternative that can be tailored for various applications without the environmental impact of traditional petrochemical plastics.

PulpStack provides an additive‑manufacturing system that converts cellulose into custom‑formulated filaments or powders for high‑performance, biodegradable 3D‑printed parts. Its proprietary extrusion/sintering process, integrated geometry‑optimization software, and post‑print curing deliver tensile strength, stiffness, and thermal stability comparable to petroleum‑based polymers, enabling manufacturers in automotive, aerospace, consumer goods, and medical devices to meet sustainability goals without sacrificing performance.

Eve Reverse provides natural‑fiber reinforced composites with biobased polymer matrices that deliver net carbon‑negative emissions and high strength‑to‑weight performance. The company offers ready‑made Eve Tiles, full product‑development services, and carbon‑accounting tools that integrate with standard composite processing methods for manufacturers in construction, automotive and consumer‑goods sectors.