Informations générales
Intitulé de l'offre : Post-doctorate (M/F): Vitamin E-based polymers for liquid crystalline nanoparticles (H/F)
Référence : UMR5629-SIMHAR-006
Nombre de Postes : 1
Lieu de travail : PESSAC
Date de publication : jeudi 19 juin 2025
Type de contrat : Chercheur en contrat CDD
Durée du contrat : 12 mois
Date d'embauche prévue : 1 septembre 2025
Quotité de travail : Complet
Rémunération : Between 2991 € and 4166 € before tax according to experience
Niveau d'études souhaité : Doctorat
Expérience souhaitée : 1 à 4 années
Section(s) CN : 11 - Matière molle : synthèse, élaboration, assemblages, structure, propriétés, fonctions
Missions
Liquid crystalline nanoparticles(LCNs) are nano-objects with non-lamellar internal organisation such as inverse bicontinuous cubic and hexagonal structures (cubosomes and hexosomes). Their curved bilayers arrange in highly organized thermodynamically stable structures in which hydrophobic regions and aqueous channels coexist and can encapsulate and protect both hydrophobic and hydrophilic species. They exhibit an extensive hydrophobic volume and large bilayer-water interfacial area. While lipid cubosomes have been known since the 1990s, the accessible range of structural parameters such as internal water channel diameter is quite limited. This project aims to address this through the preparation of hybrid LCNs incorporating both lipid and polymeric components.
Amphiphilic copolymers containing monomers that are designed to be incorporated into the lipid bilayer will be synthesized using RAFT polymerization in a flow reactor. The use of flow chemistry will permit rapid optimization of reaction conditions and the generation of libraries of polymer samples, while reducing batch-to-batch variation. The resulting copolymers will be evaluated for their capacity to stabilize and modulate the structure of LCNs without disrupting their long-range order and periodicity.
Activités
The principal activity of the researcher will be to develop protocols for the synthesis and characterization of copolymers by radical polymerization in a flow reactor. A secondary aspect of the project involves the self-assembly of the polymers into liquid crystal nanoparticles and characterization of the resulting particles.
Compétences
Candidates must hold a PhD in polymer chemistry with strong skills in polymer synthesis and characterization. Specific skills in controlled radical polymerization are strongly desirable. Some familiarity with programming languages such as Labview or Python would be an advantage. Ability to work in a team and good knowledge of English are required.
Contexte de travail
The postdoctoral position forms part of the NovelX project and will be carried out at the LCPO laboratory (CNRS / University of Bordeaux / Bordeaux-INP) in Team 1 Polymerization Catalysis and Engineering. It forms part of a collaboration between researchers from the LCPO, the SoftMat laboratory in Toulouse and the Institut Charles Sadron in Strasbourg. All LCPO infrastructure and skills in functional polymer engineering will be made available.
Contraintes et risques
None