Educational guide School of Chemical Engineering |
english |
Nanoscience, Materials and Processes: Chemical Technology at the Frontier |
Subjects |
NANOCATALYSIS |
Contents |
IDENTIFYING DATA | 2014_15 |
Subject | NANOCATALYSIS | Code | 20705217 | |||||
Study programme |
|
Cycle | 2nd | |||||
Descriptors | Credits | Type | Year | Period | ||||
4.5 | Optional | AN |
Competences | Learning outcomes | Contents |
Planning | Methodologies | Personalized attention |
Assessment | Sources of information | Recommendations |
Topic | Sub-topic |
1.- Introduction. Catalysis at nanoscale | |
2.- Metallic nanoparticles. Synthesis and stabilitation. The main concepts | 2.1.- Cinetic and mechanistic studies 2.2.- Methodes of synthesis 2.3.- Stabilitation with polymers, organic ligands and ionic liquids. |
3 .- Catalytic application of metal nanoparticles | 3.1.- Hidrogenaion 3.2.- Aassembly C-C 3.3.- Oxidation 3.4.- Other processes |
4.- General methos of nanoparticles synthesis: | 4.1.- Top-down methods. Examples of catalytic applications 4.2.- Sol-gel methods. Examples of catalytic applications 4.3.- Thermic processes. Examples of catalytic applications |
5.-Nanocarbon compounds | 5.1 Nanotubes and nanowires 5.2.Catalytic applications |
6.- Hierarchiral assembly. | 6.1 Mesoporous compounds 6.2 Catalytic applications |
7.- Nanoparticles characterization | 7.1.- Structural 7.2.- Chemical 7.3.- Physical |