Elaboration of Photopolymerized Acrylate/zeolite - Mulhouse, France - Institut de Science des Matériaux de Mulhouse (IS2M)
il y a 3 semaines
Description
Elaboration of photopolymerized acrylate/zeolite composites with nano-ZnO particle:
- Réf
ABG-120297 - Sujet de Thèse 14/02/2024
- Contrat doctoral
- Institut de Science des Matériaux de Mulhouse (IS2M)
- Lieu de travail
- Mulhouse
- Grand Est
- France
- Intitulé du sujet
- Elaboration of photopolymerized acrylate/zeolite composites with nanoZnO particle
- Champs scientifiques
- Chimie
- Matériaux
Description du sujet:
During this study, the student will have to develop formulations that allow for 3D printing of zeolitic objects. For this, solid photoinitiators such as oxide nanoparticles will be preferred as well as acrylic resin.
The incorporation of ZnO nanoparticles in a resin composed of acrylate monomers and zeolite as fillers could favor indeed a bulk photopolymerization without organic initiator.
The large variability of the zeolite material allows different approaches that could be beneficial, e.g.the improvement of the storage stability of the ZnO-based system could be achieved by combining ZnO attached to the zeolite surface.
Thus, after decomposition of the polymer, the performance of the zeolite/ZnO composite will be evaluated for pollutant sorption and catalytic photodegradation.
This study takes a multidisciplinary approach to existing know-how in research based on zeolite materials, photo curable resins and nanoscaled ZnO particles which exist on the Institut de Science des Matériaux de Mulhouse.
Nature du financement:
- Contrat doctoral
Précisions sur le financement:
Présentation établissement et labo d'accueil:
- Institut de Science des Matériaux de Mulhouse (IS2M)
The general objective of the Institute is to advance the knowledge front and transmit expertise in the field of Surfaces and Interfaces, Functionalization and Porous Materials.
In particular, the Institute aims to be a major player in the development of innovative methods and processes of synthesis, formatting, functionalization and bio-functionalization, in the field of development of characterization methods (specific and/or tailor-made), in the study of interaction mechanisms between a surface and its environment and in the study of correlations of properties on different scales.
Working there are 92 permanent employees including 20 CNRS researchers, 44 research professors, 23 CNRS ITA employees, 5 UHA BIATSS employees and ~70 PhD Students & Post-doctoral researchers/year.
Site web:
Intitulé du doctorat:
- Doctorat en chimie des Matériaux
Pays d'obtention du doctorat: - France
Ecole doctorale:
- Physique et chimie physique 14/04/2024