This subject tackles the foundations of the main technical spectroscopic and difractometric techniques for characterisation of nanomaterials and nanostrutures. It seeks the acquisition of the necessary basic knowledge, skills and competences associated to the understanding and application of the mentioned techniques.
Contingency plan
1. Modifications to the contents
No changes will be made
2. Methodologies
All indications of the Faculty of Sciences will be followed, in agreement with potential contingencly plans.
*Teaching methodologies that are maintained
Case studies (computes in the assessment)
Oral Presentation (computes in the assessment)
Proof of multiple answer (computes in the assessment)
Personalised attention
*Teaching methodologies that are modified
Master class (would be taught through ICT)
Case studies (would happen via ICT, computes in the assessment)
Oral presentation (would happen via ICT, computes in the assessment)
Examination (would happen via ICT, computes in the assessment)
3. Mechanisms for personalized attention to students
Preferably in asinchronic mode:
- e-mail, for queries, answering doubts and follow-up of the proposed activities
- moodle: according to students' criteria
- Teams: for master classes and seminars, excepcionally for queries and answering doubts.
4. Modifications in the evaluation
No changes will be made
5. Modifications to the bibliography or webgraphy
No changes will be made. Materials are available in moodle and/or in the corresponding Class Notebook (Office365) of the subject.
(*)The teaching guide is the document in which the URV publishes the information about all its courses. It is a public document and cannot be modified. Only in exceptional cases can it be revised by the competent agent or duly revised so that it is in line with current legislation.