Top 50 Bio Based Material in Europe

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.

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.

Bcomp provides lightweight, sustainable materials made from natural fibers for high-performance applications across industries. Their ampliTex and power-Ribs technologies reduce the environmental impact of products in automotive, marine, sports, and aerospace by offering a bio-based alternative to traditional materials.

The startup designs and manufactures bio-material fabrics using proprietary technologies for sustainable treatments and dyes, targeting the environmental impact of the apparel and consumer goods industries. By providing eco-friendly material alternatives, the company enables customers to reduce their ecological footprint while fulfilling their product needs.

The startup develops a technology that integrates biotechnology, materials science, and molecular simulation to create customizable bio-based materials for personal care, cosmetics, and food products. This approach enables businesses to produce sustainable products with a bio label, addressing the demand for environmentally friendly and tailored consumer goods.

21st Bio develops sustainable bio-based alternatives to replace traditional meals and materials, utilizing advanced fermentation processes and strain optimization for high product yield and stability. The company addresses the need for environmentally friendly solutions in food and material production, enabling businesses to reduce their ecological footprint while maintaining quality.

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.

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.

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.

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.

This startup manufactures furniture foam from seaweed and other biomasses, eliminating the use of petrochemicals in the production process. By providing a sustainable alternative to oil-based foam, the company helps the furniture industry reduce its environmental impact and reliance on fossil fuels.

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.

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.

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.

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.

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.

Arda Biomaterials converts spent grain from the brewing process into New Grain™, a plant-based leather alternative that eliminates the need for animal agriculture and plastic. This process significantly reduces land use, water consumption, and CO2 emissions while providing a biodegradable material that does not contribute to microplastic pollution.

ExpandFibre develops sustainable bioproducts by upgrading pulp fibers, hemicellulose, and lignin sourced from straw and northern wood into textile fibers and other biomaterials. This approach addresses the demand for high-volume, low-carbon alternatives to fossil-based products in the textile industry.

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.

Insempra utilizes precision fermentation to produce 100% bio-based ingredients for the beauty, food, and fashion industries, reducing reliance on petrochemicals and conventional agricultural practices. This technology addresses environmental degradation and resource depletion by offering sustainable alternatives that maintain high quality and stability.

The startup develops a patented process to convert raw lignin from biomass into small lignin particles, enhancing its natural properties for industrial applications. This technology provides a sustainable and biodegradable alternative to harmful synthetic ingredients, such as UV filters and emulsifiers, reducing reliance on fossil resources.

The startup manufactures biodegradable pigments derived from cellulose materials, utilizing the structural coloration found in nature, such as in birds and butterflies. This provides industries with a sustainable alternative to traditional dyes, enabling them to reduce their environmental impact and work towards carbon neutrality.

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.

The startup manufactures wood-based plastic bags that combine the renewability and recyclability of paper with the functionality of traditional plastics. This product addresses the issue of plastic waste accumulation by providing a sustainable alternative that meets everyday plastic bag needs without compromising environmental standards.

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.

The startup manufactures a treatment process that enhances cellulosic substrates for packaging, producing transparent, recyclable, compostable, and biodegradable materials. This enables businesses to transition to eco-friendly, paper-based packaging solutions, effectively reducing reliance on plastic and minimizing environmental impact.

PaperShell manufactures load-bearing components from pressed paper, creating a sustainable alternative to plastics and metals that significantly reduces CO2 emissions by up to 98%. This technology transforms waste paper into high-performance, biogenic materials, addressing the environmental impact of single-use items and fossil fuel reliance.

This startup manufactures cell-cultured collagen-based leather, utilizing biotechnological processes to create a sustainable alternative to traditional leather. By eliminating reliance on animal agriculture and deforestation, the company provides an environmentally friendly option for consumers seeking animal-free leather products.

SCALE develops bio-based composite materials that enhance performance while significantly reducing production costs and greenhouse gas emissions compared to traditional carbon fiber. By utilizing renewable resources and low-impact processes, SCALE addresses the environmental impact of advanced composites used in various industries, including automotive and sporting goods.

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.

The startup provides a plant-based upcycling service that segregates industrial waste to extract valuable side-streams for conversion into sustainable raw materials. This process enables industries to minimize waste and lower their environmental impact, contributing to a more efficient 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.

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.

The startup develops bio-based aromatics by converting biomass residues into chemical ingredients that serve as essential raw materials for coatings, adhesives, and insulating foam. This process provides a sustainable alternative to fossil-derived aromatics, enhancing product performance while reducing reliance on non-renewable resources.

The startup manufactures plant-based concrete and biomimetic construction materials that utilize bio-based inputs and circular economy principles. This approach provides businesses with sustainable alternatives for waste management and construction, reducing reliance on traditional, environmentally harmful materials.

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.

BindEthics develops a sustainable bio-adhesive derived from industrial biowaste, replacing traditional synthetic adhesives that are toxic and non-recyclable in engineered wood production. This innovation enables the creation of fully recyclable wood panels, contributing to a circular economy and reducing reliance on fossil fuels.

The startup manufactures sustainable biopolymer-inorganic composite materials inspired by natural substances like ivory and tooth enamel, eliminating the need for traditional ceramic firing. This innovation enables the ceramics sector to transition to greener production methods while maintaining material performance and scalability.

The startup develops water-resistant biocomposite materials that can replace traditional composites like fiberglass and carbon fiber, as well as plastics and metals. These materials reduce the carbon footprint of manufacturing processes and enhance supply chain security by minimizing water absorption during production.

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.

CH-Bioforce has developed BIOFORSENSE®, a biomass fractionation technology that gently extracts cellulose, hemicellulose, and lignin from various feedstocks in a single process. This technology provides high-purity biomaterials for industries such as textiles and packaging, addressing the need for sustainable raw materials in the production of eco-friendly products.

This startup manufactures sustainable packaging using agro-fibers sourced from renewable agricultural materials, significantly reducing reliance on wood and single-use plastics. Their products provide businesses with a lower environmental footprint, facilitating a transition to a low-carbon circular economy.

The startup produces sustainable packaging materials using mycelium technology, which offers a degradable alternative to traditional packaging. These materials effectively absorb oils and are designed for gradual substance release, enabling industrial users to implement environmentally responsible protective packaging solutions.

This startup manufactures natural material products for luxury brands, research laboratories, and prototyping workshops, utilizing advanced material engineering techniques to enhance the properties of various natural substances. By reintegrating these materials into production processes, clients can unlock new creative applications and improve sustainability in their product offerings.

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.

Provides a sustainable insulation material that absorbs CO2 during its lifecycle, reducing the carbon footprint of construction projects. This high-performance solution offers cost-effective thermal insulation, addressing the industry's need for environmentally friendly building materials without compromising on efficiency or affordability.

The startup produces a plant-based alternative to leather and faux leather using biodegradable and recyclable materials that are cruelty-free and plastic-free. This offering provides consumers with a sustainable option that reduces reliance on animal products and plastic, contributing to environmental preservation.