"Molecular and nanostructured magnetic material, INSTM", 3 ECTS
"Introduction to tensors and their applications, INSTM", 3 ECTS
"Spectroscopy methods on Metallic ions". INSTM "M", 3 ECTS
"Structural analysis by using X-ray diffraction", INSTM "M", 3 ECTS
"First principle calculations and DFT approach to molecular magnets". INFM. "M", 3 ECTS
"Neutron scattering on molecular nanomagnets". INFM. "M", 3 ECTS
"Switchable magnets: photo-induced magnetism in molecules and solids, photo-switching, new switchable materials, photo-physical processes, theory and models for switching processes". CNRS-IdF. "M", 12 ECTS
"Molecular nanomagnets: synthesis strategy of new MNMs, theoretical aspects of MNMs, physical properties of MNMs, physical measurements on MNMs". CNRS-IdF "M", 12 ECTS
" Nanoobjects and nanostructures. From the molecule to the solid. Physical properties. Self-assembly". CNRS-Est. "M", 4 ECTS
"Molecular materials. Molecular electronics and molecular magnetism". CNRS-Est "M", 6 ECTS
"Training course on EPR spectroscopy, including an introduction to the use of equipment". MAN "M", 6 ECTS
"Physical Methods in (molecular) Inorganic Chemistry". LEIDENUNIV. "M", 4 ECTS
"Molecular Magnetic Materials". LEIDENUNIV. "M", 3 ECTS
" Linear and non-linear spectroscopy". LEIDENUNIV. "M", 4 ECTS
"Group theory and the application to atoms, molecules and crystals". LEIDENUNIV. "M", 6 ECTS
" Single particle magnetism". UAIC "M", 3 ECTS
"Software for interfaces and control of laboratory instruments". INSTM "M", 3 ECTS
"Write to communicate science: a practical workshop for doctoral students" - INSTM, "M", 2 ECTS
"Magnetic characterisation techniques for nanoscopic and molecular material", INSTM, "M", 2 ECTS
"Introduction to the patent procedures", INSTM, 3 ECTS
"Molecular materials: physical properties. From the molecule to the molecular materials. Optical, conducting and magnetic properties". CNRS-Est , 4 ECTS
"Grafting and patterning molecules on surfaces". CSIC , 3 ECTS
"Organic molecular magnetic materials". CSIC, 4 ECTS
"State of the art on Molecular nanoscience: Molecular nanomagnetism, molecular electronics and supramolecular chemistry". UVEG , 6 ECTS
Specialised Lectures and Advanced Courses Organised by Class
Inventory of Specialised Lectures and Advanced Courses Selected from Several Proposed and Offered by the Different Nodes of EIMMThe selection of lectures and courses, and the amount of ECTS credits, was made based on the following objectives:
1) CLASS A: propose an essential knowledge base for students and young researchers to improve movement inside the research field of the EIMM; many of these are also suitable for MSc.
2) CLASS B: promote transfer of Knowledge inside the EIMM with specialised courses designed according to the expertise of the EIMM partners; some of these are also suitable for MSc.
3) CLASS C: fulfil the recommendation presented in the Research Road Map to reinforce some fields or techniques which knowledge is (as yet) less strong and less diffuse inside the Insititute; some of these are also suitable for MSc.
4) CLASS D: fulfil the recommendation presented in the Research Road Map to reinforce techniques where there application seems to be an important key to reach the goals of the EIMM research; some of these are also suitable for MSc.
The amount of ECTS for each course has been accepted as the number of ECTS given locally, i.e. at the school of the Node. Finally, an indication "M" has been added in the lists below, when the course is also suitable for the MSc programme.