Acquire solid knowledge and practical experience of materials analysis so as to then be able to model and predict the chemical and physical properties of materials in the energy field.
Acquire the ability to carry out research work.
Acquire the knowledge necessary to understand and write scientific texts in English, as well as being capable of holding conversations and giving oral presentations in a professional setting.
Analyse complex, multi-disciplinary problems.
Be able to assess research and innovation projects, as well as conducting scientific and engineering projects and being able to adapt and seek new technological solutions.
Have an inter-disciplinary training in the field of materials for storing and converting energy, which requires in-depth understanding of the science and engineering involved (chemistry, physical chemistry) and of methods of synthesising these materials.
Have in-depth knowledge of the principles of electro-chemical energy technologies in order to handle and use materials to create new devices in this field.
Have the ability to work efficiently in a group, under pressure, be able to conduct a critical analysis of the information and be able to report research results both in scientific articles and in oral presentations.
Integrate experimental information and information gained from simulations
