PhD Student
Adress : UMR FARE, 2 Esplanade Roland-Garros, 51100 Reims

Adress : UR BIOS, 51 Rue Cognacq-Jay, 51100 Reims

LinkedIn 

www.linkedin.com/in/yanis-verron-00007225a

Career

Since June 2026 : PhD Student – Bone regeneration via 3D printing of architectured biomaterials with multi-scale porosity – UMR A614 FARE (URCA/INRAE) and UR 4691 BIOS (URCA), Reims, France

October 2024 – July 2025 : Experimental Project at the Laboratory and Master’s Internship (M2) – Functional properties of milk proteins produced by fermentation – UMR 6283 IMMM (LMU/CNRS), Le Mans, France

April 2024 – June 2024 : Master’s Internship (M1) – Multifunctional polymers : Synthesis by RAFT polymerization and characterization – UMR 6283 IMMM (LMU/CNRS), Le Mans, France

Education

Since June 2026 : PhD in Materials Chemistry – ED 619 BCS, Université de Reims Champagne-Ardenne (URCA), Reims, France

2023 – 2025 : Master’s degree in Chemistry – Specialization in Chemistry and Physical Chemistry of Polymers – Le Mans Université (LMU), Le Mans, France

2021 – 2023 : Bachelor’s degree in Physics and Chemistry – Specialization in Chemistry – Le Mans Université (LMU), Le Mans, France

2020 – 2021 : PluriPASS – Université d’Angers (UA), Le Mans, France

Skills

Physicochemical characterization of (bio)polymers and/or materials : Rheology, Confocal microscopy, Thermal analysis (DSC, TGA, TDA), Tensile testing, Light scattering (SLS and DLS), UV-Visible spectrophotometry, Differential refractometry, Size Exclusion Chromatography (SEC), NMR and FTIR spectroscopies
Polymer synthesis : Polymerization techniques and processes
Bibliography
Writing and presentation of scientific documents 

Research interests 

My thesis is part of the 3DGENESIS project, funded by the French National Research Agency (ANR), which aims to address the challenges associated with maxillary sinus floor elevation (Sinus Lift), a crucial surgical procedure for the placement of dental implants in patients who have experienced bone loss. To achieve this, the project will develop a new generation of soft scaffolds with interconnected multi-scale porosity, made from thermoplastic polyurethane (TPU) and lignin. This will be achieved using an original approach combining ternary polymer blending, coaxial extrusion, and 3D printing via fused filament fabrication (FFF). The resulting scaffolds must be biocompatible, bioactive, bioresorbable, and possess appropriate mechanical properties as well as antibacterial and antioxidant properties.