Sustainable and Recyclable Polymeric Thermosets

MSCA (Marie Skłodowska-Curie)HORIZON-TMA-MSCA-SEID: 101085759
EC Contribution
€2,530
Consortium Size
5 orgs
Start Year
2023
Summary

The concerns connected to petroleum-based origin of polymeric materials and the problems related to the accumulation of plastic waste in the environment need an urgent solution. One possible strategy to address this dramatic situation is the exploitation of bio-based resources as precursors for polymers. In particular, the valorization of agro-food wastes via extraction of polymeric precursors could be a winning strategy. Furthermore, the implementation of dynamicity in crosslinked polymeric materials with the introduction into the polymeric networks of labile noncovalent and dynamic bonds capable of undergoing reversible formation and cleavage, will give to the corresponding materials innovative recyclability properties.Within this frame, this project aims to face the complex challenge of the production of sustainable and recyclable polymeric thermosets. The proposed target can be reached by exploiting the peculiar properties of vitrimers, which allows a direct recyclability or reprocessability of the polymeric networks. On the other hand, the use of bio-based polymers holds great promises for the development of sustainable materials. Therefore, the integration of vitrimer properties with bio-based materials appears a great combination of choice to achieve the expected aim. For this reasons, SURE-Polymer has assembled an international team of researchers whose expertise spans green chemical synthesis, biopolymer functionalization, polymer photochemistry, vitrimer design and 3D-printing technology for object fabrication. The project will be run within the international and intersectoral consortium where different and complementary competences of the partners will be shared and exploited creating synergisms. The aim is within the objective of the MSCA-SE call, where transfer of skills and competences will lead to improved employability and career prospective of the involved seconded staff members.

Consortium (5)

Project Results (21)

Source: CORDIS, the EU research results database.

Publications (19)
3D printing with biobased epoxidized formulations based on vegetable oils with dynamic polymer network properties
Polymer Chemistry· 2026DOI
Matilde Porcarello, Ettore Greco, Alberto Cellai, Rafael Turra Alarcon, Elizabeth Rossegger, Marco Sangermano
3D-Printed Biobased Porous Polymer Scaffolds Reinforced with Bioactive Glasses by High Internal Phase Emulsion Polymerization
Biomacromolecules· 2025DOI
Matteo Bergoglio, Marta Miola, Enrica Vernè, Marco Sangermano, Neil R. Cameron
Biobased Epoxidized Castor Oil Covalent Adaptable Networks Adhesives Reinforced with Recycled Carbon Fibers
Macromolecular Rapid Communications· 2025DOI
Alberto Cellai, Rafael Turra Alarcon, Bernhard Sölle, Elisabeth Rossegger, Valentina Casalegno, Milena Salvo, Marco Sangermano
Cationic Photopolymerization of Biobased Oxetane Monomers Obtained from Adipic, Itaconic, and Citric Acid Functionalization
Macromolecular Chemistry and Physics· 2025DOI
Dumitru Moraru, Lazaros Papadopoulos, Minna Hakkarainen, Marco Sangermano
Polyphenols-derived epoxy vitrimers for smart applications: Electrical conductivity, Joule heating, and strain sensing
Polymer· 2025DOI
Rossella Sesia, Javier Gomez Sanchez, Ignacio Collado, Alejandro Cortes, Alberto Jimenez-Suarez, Minna Hakkarainen, Silvia Spriano, Sara Ferraris, Marco Sangermano
Reversible On-Demand Activation of Acid-Catalyzed Dynamic Polymers for Gradient-Driven Reshaping
Journal of the American Chemical Society· 2025DOI
David Reisinger; Laura Wimberger; Roman Korotkov; Markus Alfreider; Timothy F. Scott; Neil R. Cameron; Cyrille Boyer; Sandra Schlögl
Silanized and Cu-doped bioactive glass as filler for biobased photocurable 3D printed scaffolds
Materials Today Chemistry· 2025DOI
Matteo Bergoglio; Ziba Najmi; Andrea Cochis; Marta Miola; Enrica Vernè; Marco Sangermano
Tellurium-Doped Silanised Bioactive Glass–Chitosan Hydrogels: A Dual Action for Antimicrobial and Osteoconductive Platforms
Polymers· 2025DOI
Matteo Bergoglio; Ziba Najmi; Federica Ferla; Alessandro Calogero Scalia; Andrea Cochis; Lia Rimondini; Enrica Vernè; Marco Sangermano; Marta Miola
3D-Printed Acrylated Soybean Oil Scaffolds with Vitrimeric Properties Reinforced by Tellurium-Doped Bioactive Glass
Polymers· 2024DOI
Matteo Bergoglio, Matthias Kriehuber, Bernhard Sölle, Elisabeth Rossegger, Sandra Schlögl, Ziba Najmi, Andrea Cochis, Federica Ferla, Marta Miola, Enrica Vernè, Marco Sangermano
Cationic UV-Curing of bio-based epoxidized castor oil vitrimers with electrically conductive properties
Reactive and Functional Polymers· 2024DOI
M. Bergoglio, G. Palazzo, D. Reisinger, M. Porcarello, G. Kortaberria, S. Schlögl, M. Sangermano
Microwave-functionalized natural tannic acid as an anticorrosive UV-curable coating
Polymer· 2024DOI
Rossella Sesia, Paula Pou I Rodríguez, Massimo Calovi, Minna Hakkarainen, Stefano Rossi, Sara Ferraris, Silvia Spriano, Marco Sangermano
Multi-material 3D-printing of biobased epoxy resins
Polymers· 2024DOI
M. Bergoglio, E. Rossegger, S. Schlögl, T. Griesser, C. Waly, F. Arbeiter, M. Sangermano
Multiple approaches to exploit ferulic acid bio-based epoxy monomer for green thermoset
Industrial Crops and Products· 2024DOI
L. Pezzana, E. Malmstrom, M. Johansson, V. Casalegno, M. Sangermano
Sustainable Electrically Conductive Bio-Based Composites via Radical-Induced Cationic Frontal Photopolymerization
Polymers· 2024DOI
Dumitru Moraru, Alejandro Cortés, David Martinez-Diaz, Silvia G. Prolongo, Alberto Jiménez-Suárez, Marco Sangermano
Sustainable Light-Assisted 3D Printing of Bio-Based Microwave-Functionalized Gallic Acid
Macromolecular Chemistry and Physics· 2024DOI
Rossella Sesia, Matilde Porcarello, Minna Hakkarainen, Sara Ferraris, Silvia Spriano, Marco Sangermano
Biobased Vitrimeric Epoxy Networks
Macromolecular Materials and Engineering· 2023DOI
Marco Sangermano,Matteo Bergoglio,Sandra Schögl
Digital light processing 3D printing of isosorbide-and vanillin-based ester and ester-imine thermosets: Structure-property-recyclability relationships
ACS Sustainable Chemistry and Engineering· 2023DOI
A. Liguori, E. Oliva, M. Sangermano, M. Hakkarainen
Sustainable Bio-Based UV-Cured Epoxy Vitrimer from Castor Oil
Polymers· 2023DOI
Matteo Bergoglio, David Reisinger, Sandra Schlögl, Thomas Griesser, Marco Sangermano
UV-Cured Bio-Based Acrylated Soybean Oil Scaffold Reinforced with Bioactive Glasses
Polymers· 2023DOI
Matteo Bergoglio; Ziba Najmi; Andrea Cochis; Marta Miola; Enrica Vernè; Marco Sangermano
Deliverables (1)
Documents, reports
Other Results (1)
Periodic Reporting for period 1 - SURE-Poly (Sustainable and Recyclable Polymeric Thermosets)