Summary
Τhe goal of the FURIOUS project is to develop novel versatile polymers based on 2,5-FDCA to enrich the portfolio of bio-based innovative mono-material solutions proposed to replace traditional plastics. The materials will be properly designed from the chemical point of view to satisfy a set of target properties required for three stringent applications, where other bioplastics do not address all the requirements or traditional plastics are still widely employed: biomedical and electronic packaging (where resistance to sterilization and high barrier properties are necessary), automotive sector (where resistance to UV weathering and intrinsic antibacterial properties are the key feature) and underwater devices (where photoreactivity and biodegradability in seawater are requested). To target such a goal, all the well-established synthetic strategies will be used, with particular attention to the exploitation of green processes, to low lifecycle environmental impact polymers and to the minimization of their production cost. FURIOUS material versatility will be also assessed with respect to their processability, which is a further mandatory feature to be checked for real entry on the market. Both well-established technologies, such as injection molding and extrusion, and more innovative ones, such as electrospinning, 3D printing and stereolithography will be validated. Last, but not least, intrinsic recyclability will be imparted to the new furan-based polymers for both greener and mechanical recycling and for novel enzymatic recycling strategies. In the case of packaging, compostability will also be evaluated, while underwater sensor biodegradability in marine environment will be checked being one of the key requested polymer feature. Innovative results of FURIOUS will contribute to the development of Sustainability-by-design database, used to assess and predict the performance of novel materials and to derive a set of guidelines for the end-use applications.
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More information & hyperlinks
| Web resources: | https://cordis.europa.eu/project/id/101112541 |
| Start date: | 01-06-2023 |
| End date: | 31-05-2027 |
| Total budget - Public funding: | 4 498 017,50 Euro - 4 498 017,00 Euro |
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Original description
Τhe goal of the FURIOUS project is to develop novel versatile polymers based on 2,5-FDCA to enrich the portfolio of bio-based innovative mono-material solutions proposed to replace traditional plastics. The materials will be properly designed from the chemical point of view to satisfy a set of target properties required for three stringent applications, where other bioplastics do not address all the requirements or traditional plastics are still widely employed: biomedical and electronic packaging (where resistance to sterilization and high barrier properties are necessary), automotive sector (where resistance to UV weathering and intrinsic antibacterial properties are the key feature) and underwater devices (where photoreactivity and biodegradability in seawater are requested). To target such a goal, all the well-established synthetic strategies will be used, with particular attention to the exploitation of green processes, to low lifecycle environmental impact polymers and to the minimization of their production cost. FURIOUS material versatility will be also assessed with respect to their processability, which is a further mandatory feature to be checked for real entry on the market. Both well-established technologies, such as injection molding and extrusion, and more innovative ones, such as electrospinning, 3D printing and stereolithography will be validated. Last, but not least, intrinsic recyclability will be imparted to the new furan-based polymers for both greener and mechanical recycling and for novel enzymatic recycling strategies. In the case of packaging, compostability will also be evaluated, while underwater sensor biodegradability in marine environment will be checked being one of the key requested polymer feature. Innovative results of FURIOUS will contribute to the development of Sustainability-by-design database, used to assess and predict the performance of novel materials and to derive a set of guidelines for the end-use applications.Status
SIGNEDCall topic
HORIZON-JU-CBE-2022-R-01Update Date
31-07-2023
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Organisations
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| Università degli Studi di Perugia (Coördinator)
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| ALMA MATER STUDIORUM-UNIVERSITA DI BOLOGNA
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| BIO-MI DRUSTVO S OGRANICENOM ODGOVORNOSCU ZA PROIZVODNJU, ISTRAZIVANJEI RAZVOJ
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| CONSORZIO INTERUNIVERSITARIO NAZIONALE PER LA SCIENZA E TECNOLOGIA DEI MATERIALI
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| Condensia Quimica SA
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| EVOLOGICS GMBH (EVOL)
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| GAMMATOM SRL
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| KNEIA SL
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| LCI ITALY SRL
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| STORA ENSO OYJ
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| UNIVERSIDAD DE ALICANTE
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| UNIVERSITA DI PISA
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| UNIVERSITAET FUER BODENKULTUR WIEN
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| UNIVERSITEIT MAASTRICHT
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| ZACHODNIOPOMORSKI UNIWERSYTET TECHNOLOGICZNY W SZCZECINIE