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Portail > Offres > Offre UMR5247-BENNOT-001 - Post-doctorant biomatériaux polymères dégradables pour impression 4D (H/F)

Post-doctoral position in Polymeric Biomaterials for 4D printing (M/W)

This offer is available in the following languages:
- Français-- Anglais

Date Limite Candidature : dimanche 31 décembre 2023

Assurez-vous que votre profil candidat soit correctement renseigné avant de postuler

Informations générales

Intitulé de l'offre : Post-doctoral position in Polymeric Biomaterials for 4D printing (M/W) (H/F)
Référence : UMR5247-BENNOT-001
Nombre de Postes : 1
Lieu de travail : MONTPELLIER
Date de publication : samedi 4 novembre 2023
Type de contrat : CDD Scientifique
Durée du contrat : 24 mois
Date d'embauche prévue : 8 janvier 2024
Quotité de travail : Temps complet
Rémunération : 2934.82€ per month gross salary
Niveau d'études souhaité : Niveau 8 - (Doctorat)
Expérience souhaitée : Indifférent
Section(s) CN : Supra and macromolecular materials and systems: development, properties, functions

Missions

The objective of the SPYMAT project is to develop hybrid biomaterials to overcome the limitations of biomaterials available for advanced medical devices or scaffolds for tissue engineering (TE). Indeed, current biomaterials are far from fulfilling all requirements : tunable mechanical properties, spatially localized biofunctionalities, compatibility with advanced processes, degradability and, when it comes to TE, mimic specific stem cell niches.

The SPYMAT project proposes to address these challenges by combining resorbable photopolymers suitable for photostructuration via one or two photons excitation, with Virus-Like Particles (VLPs) that will be responsible for a controlled and efficient presentation of bioactive peptides. SPYMAT will benefit from original approaches in the key aspects of the project: control and modularity of the biofunctionality via VLPs, control and modularity of the networks mechanical and degradation properties via star-shaped polyether-polyester block copolymers, efficient ligation via isopeptidic bounds formation using SpyTag/SpyCatcher (SpyT/SpyC), control of the medical devices or scaffold design via one or two-photons photopolymerization 3D printing.

Activités

On the scientific aspects, you will be in charge of developing the photopolymers, the photoresins and evaluate their processability before transfer to the IS2M teams. The tasks will be divided as follows:
- synthesis of degradable star photocopolymers with/without SpyTag
- processing of the photocurable polymers to yield networks with/without SpyTag
- evaluation of the networks properties (mechanical, degradation)
- preliminary biocompatility studies

On the project management aspects, you will be responsible for:
- the daily coordination of the project with the consortium members, more specifically with the two other post-doc fellows hired at IS2M to ensure the required retroactions between the workpackages.
- the valorization/dissemination of the results through the writing of articles and communications at all levels (from local to international)
- the reporting of the project with the coordinator Pr. Benjamin Nottelet

Compétences

Keywords: Implantable medical device, tissue engineering, degradable elastomers, degradable hydrogels, polymer networks, hybrid biomaterials, polymer chemistry, 3D-photoprinting
Skills : Materials science, physical chemistry of polymers, chemistry, English

Contexte de travail

This highly interdisciplinary project will be carried out in the Department of Polymers for Health and Biomaterials (PHBM) of the Institute of Biomolecules Max Mousseron (IBMM) in Montpellier-France, under the supervision of Pr. Benjamin Nottelet. PHBM has extensive experience in the domain of degradable polymers for medical devices and controlled release systems. As part of an ANR project, SPYMAT will be conducted with the “Institut de Science des Matériaux de Mulhouse” (IS2M) through collaborations with Dr. Laurent Pieuchot from the team “Biomaterials-Biointerfaces” specialist of VLPs, and with Dr. Arnaud Spangenberg from the team “Molecules, Nano-, Micro-Structures” specialist of VAT-photopolymerization and 3D-printing.

Le poste se situe dans un secteur relevant de la protection du potentiel scientifique et technique (PPST), et nécessite donc, conformément à la réglementation, que votre arrivée soit autorisée par l'autorité compétente du MESR.

Contraintes et risques

None