Revolutionizing Materials with
Advanced Biomass Materials for Decarbonisation
We turn upcycled biomass into high‑performance materials, including biocomposite compounds and masterbatches, that help manufacturers reduce fossil content, lower carbon footprints, and meet technical and compliance requirements.
Our advanced biomaterials are engineered to integrate into existing industrial processes, while enabling measurable sustainability gains, from packaging to automotive, from formulation to certification.
Our solutions
Materials Designed to Perform and Decarbonize
Carbon‑Reduction Masterbatches
Lower the footprint of conventional or bioplastics by displacing virgin polymer content with carbon-sequestering biomass additives.
Home Compostable Materials
Certified compounds for industrial and home composting. Built for SUP compliance, optimized for performance and real-world breakdown.
Custom Formulation & Consulting
Co-develop materials tailored to your performance specs, processing needs, and circularity goals.
Innovate. Save. Preserve.
Carbon‑Smart
Locks in plant‑captured CO₂ to shrink the carbon footprint of both conventional plastics and bioplastics.
Cost Efficient
Reduces material costs through optimized filler integration. Lowers polymer usage while supporting eco-design objectives.
High Performance
Maintains key mechanical and functional properties. Engineered for high compatibility with conventional processing.
Tailored Solutions
Formulated to match your technical, regulatory, and sustainability needs. Customized for your specific application and production process.
Sustainability
Reducing emissions. Replacing fossil inputs. Preventing waste. At Biomera, we design every material to deliver proven environmental performance, not just promises. From upcycled biomass to certified compostability, our materials help your business hit real ESG targets while accelerating the global Net Zero transition.
Making Net Zero
Our Sustainability Goes Beyond the Label
- Upcycled biomass inputs, not virgin crops or fossil-based polymers
- Carbon lock-in, preserving CO₂ captured during plant growth
- Design for circularity, with certified compostable options and durable-use platforms
- Scalable industrial compatibility, helping manufacturers switch without compromise
- End-of-life readiness, supporting composting, and carbon insetting