Converting organic waste into sustainable bio-based components

Digital, Industry & SpaceHORIZON-RIAID: 101058654
EC Contribution
€58,618
Consortium Size
14 orgs
Start Year
2022
Summary

Waste2BioComp project aims to demonstrate relevant scale production of bio-based products and materials, as alternatives to traditional materials with high environmental footprint, using innovative manufacturing technologies. The project integrates all stages in the bio-based products´ life cycle, starting from R&I activities regarding the sourcing of feedstocks for the development of bio-based precursors and intermediate materials, smart inkjet printing techniques, and smart manufacturing technologies for final products, and the final demonstrators, which will entail the production on a relevant scale of the following bio-based products: shoe sole materials with different hardness; three-layered shoe insoles; plastic films/packaging with different flexibilities; social face masks; fashion garments printed with bio-based inks; leather and textile shoes printed with bio-based inks; paper for packaging printed with bio-based inks. Waste2BioComp will also develop sustainability and toxicity assessments to the developed materials and products, as well as re-manufacturing and recycling approaches to ensure circularity by closing the material loop. Furthermore, the project will develop dedicated training activities to support the creation of a skilled workforce in biomaterial-based manufacturing sectors, particularly for the textile, footwear, and packaging activities.Therefore, Waste2BioComp will have a significative impact on the reduction of the use of fossil-based materials, not only in the approached three value chains (textiles, packaging, and footwear), which are highly resource and polluting intensive sectors, but also with potential for several other sectors and applications.The project will run for 36 months, and it will be constituted by 13 partners from France, Germany, Italy, Portugal, Spain, and Switzerland.

Consortium (14)

Project Results (17)

Source: CORDIS, the EU research results database.

Publications (16)
Aqueous Polyhydroxyalkanoate Solution-Based Knife Coatings: An Alternative Approach to the Production of Coated Cotton Fabrics
Coatings· 2025DOI
Marta A. Teixeira, Joana Castro, Beatriz Lima, Catarina Guise, Helena Vilaça, Carla Joana Silva
Bio-based pigment inks for inkjet printing applications
European Coatings Show Conference extended abstracts· 2025
Augusta Silva, Jéssica Antunes, Marisa Lopes, Beatriz Marques, Agata Nolasco, Helena Vilaça, Carla Silva
Comprehensive Evaluation of Wet-Spun Polyhydroxyalkanoate Fibres: Morphology, Crystallinity, and Thermal Properties
Fibers· 2025DOI
Marta A. Teixeira, Inês Leite, Raquel Gonçalves, Helena Vilaça, Catarina Guise, Carla Silva
Development of Water-Based Inks with Bio-Based Pigments for Digital Textile Printing Using Valve-Jet Printhead Technology
Colorants· 2025DOI
Jéssica Antunes, Marisa Lopes, Beatriz Marques, Augusta Silva, Helena Vilaça, Carla J. Silva
Enhanced Moisture Management in Textiles via Spray-Coated Water-Based Polyhydroxyalkanoate Dispersions
Coatings· 2025DOI
Marta A. Teixeira, Wael Almustafa, Joana Castro, Catarina Guise, Helena Vilaça, Carla J. Silva
Improving i‐<scp>P3HB</scp> Processing Window: Solution‐Casting Blends With a‐<scp>P3HB</scp> and <scp>P34HB</scp>
Journal of Applied Polymer Science· 2025DOI
Wael Almustafa, Sergiy Grishchuk, Jörg Sebastian, Dirk W. Schubert, Gregor Grun
Solvent-Free Processing of i-P3HB Blends: Enhancing Processability and Mechanical Properties for Sustainable Applications
Polymers· 2025DOI
Wael Almustafa, Sergiy Grishchuk, Michael Redel, Dirk W. Schubert, Gregor Grun
Chemical Synthesis of Atactic Poly-3-hydroxybutyrate (a-P3HB) by Self-Polycondensation: Catalyst Screening and Characterization
Polymers· 2024DOI
Wael Almustafa, Dirk W. Schubert, Sergiy Grishchuk, Jörg Sebastian, Gregor Grun
Produção de fibras, revestimentos e/ou não tecidos através de tecnologias alternativas
· 2024
Inês Leite
Self-Reinforced Biocomposites Made from Poly(3-hydroxybutyrate-<i>co</i>-3-hydroxyvalerate) (PHBV): An Innovative Approach to Sustainable Packaging Production through Melt Processing
ACS Omega· 2024DOI
Anja Schmidt; Birgit Bittmann-Hennes; Danny Moncada; Belén Montero
Waste as valuable feedstock for sustainable future packaging
Book of papers 24th IAPRI World Packaging Conference· 2024
Renato Mortera, Donato Cocina, Anja Schmidt, Danny Robert Moncada Villalobos, Maria Belen Montero Rodriguez, Sonja Adler, Barbara E. Guetler, Salvatore Davide Crapanzano
Dark blue-green: Cave-inhabiting cyanobacteria as a model for astrobiology
Frontiers in Astronomy and Space Sciences· 2023DOI
Patrick Jung; Felix Harion; Shujie Wu; Dennis J. Nürnberg; Francesco Bellamoli; Antonio Guillen; Manuel Leira; Michael Lakatos
New textile structures based in sustainable fibers spinning
· 2023
Gulnazi Kenzhebay
Rare earths stick to rare cyanobacteria: Future potential for bioremediation and recovery of rare earth elements
Frontiers in Bioengineering and Biotechnology· 2023DOI
Michael Paper; Max Koch; Patrick Jung; Michael Lakatos; Tom Nilges; Thomas B. Brück
Stripped: contribution of cyanobacterial extracellular polymeric substances to the adsorption of rare earth elements from aqueous solutions
Frontiers in Bioengineering and Biotechnology· 2023DOI
Michael Paper; Patrick Jung; Max Koch; Michael Lakatos; Tom Nilges; Thomas B. Brück; Thomas B. Brück
The dark side of orange: Multiorganismic continuum dynamics within a lichen of the Atacama Desert
Mycologia· 2023DOI
Patrick Jung, Karen Baumann, Dina Emrich, Michael Schermer, Kai-Uwe Eckhardt, Gerald Jandl, Peter Leinweber, Felix Harion, Andreas Wruck, Martin Grube, Burkhard Büdel, Michael Lakatos
Other Results (1)
Periodic Reporting for period 1 - Waste2BioComp (Converting organic waste into sustainable bio-based components)