Dynamic and degradable imine-based networks for 3D-printing of soft elastomeric self-healable devices
2023, 3D printing and shaping processes for improved medical devices, Advanced polymeric biomaterials, B.Nottelet, Evaluation of biomaterials mechanical behaviours, Functional aliphatic polyesters, Implantable medical devices for soft tissues, medical devices, Publications, Resorbable elastomers for medical applications, S.Dejean, Tissue engineering and medical devices
Dynamic PEG−PLA/Hydroxyurethane Networks Based on Imine Bonds as Reprocessable Elastomeric Biomaterials
2023, 3D printing and shaping processes for improved medical devices, Advanced and well-defined macromolecular architectures, Advanced polymeric biomaterials, B.Nottelet, Evaluation of biomaterials mechanical behaviours, Functional aliphatic polyesters, Publications, Resorbable elastomers for medical applications
Degradable Self-healable Networks for Use in Biomedical Applications
2023, A.Bethry, Advanced and well-defined macromolecular architectures, Advanced polymeric biomaterials, B.Nottelet, Evaluation of biomaterials mechanical behaviours, Functional aliphatic polyesters, Implantable medical devices for soft tissues, medical devices, Publications, Resorbable elastomers for medical applications, tissue engineering, Tissue engineering and medical devices
Dual-crosslinked degradable elastomeric networks with self-healing properties: bringing multi(catechol) star block copolymers into play
2023, A.Bethry, Advanced polymeric biomaterials, B.Nottelet, Evaluation of biomaterials mechanical behaviours, Functional aliphatic polyesters, Implantable medical devices for soft tissues, L.Gangolphe, medical devices, Publications, Resorbable elastomers for medical applications, S.Dejean, S.Hunger, Tissue engineering and medical devices, X.Garric
