Knowledge on the most significative processes and methods for the preparation of solid nanomaterials.
The ongoing development of modern society, nature conservation, the improvement in the quality of human life and progress in both industry and technology depend on new concepts, new designs and new materials. As materials science evolves, so does our lifestyle as it embraces the new technologies derived from the never-ending stream of commercially available nanomaterials. We are convinced that without materials there can be no progress. Nanomaterials are the driving force of the progress of our society. The aim of this lecture is to illustrate the most important processes and methods for the preparation of solid nanomaterials.
Partie 1. Procédés et méthodes
Ch. 1. Procédé Sol-Gel
Ch. 2. Procédé hydro, alco et solvo thermal
Ch. 3. Procédé aérosol
Ch. 4. Procédé de (co)précipitation
Ch. 5. Procédé de décomposition
Ch. 6. Procédé « chemical vapor deposition »
Ch. 7. Méthode de biominéralisation
Ch. 8. Méthode « templating »
Ch. 9. Méthode « patterning »
Ch. 10. Méthode « imprinting »
Partie 2. Précurseurs et additifs
Ch. 11. Sels inorganiques
Ch. 12. Composés organiques (alkoxydes,…)
Ch. 13. Composés organo-métalliques
Ch. 14. Polymères
Ch. 15. Suspensions colloïdales
Un travail sur un sujet bien précis.
| Training | Study programme | Block | Credits | Mandatory |
|---|---|---|---|---|
| Master 60 en sciences chimiques | Standard | 0 | 4 | |
| Master 60 in chemistry | Standard | 0 | 4 | |
| Master 60 in chemistry | Standard | 1 | 4 | |
| Master 60 en sciences chimiques | Standard | 1 | 4 |