- U1.1 - Basic concepts about the properties of advanced materials
- U1.2 - Fundamentals of preparation and processing techniques for advanced materials
- U1.3 - Fundamentals of materials characterization techniques
Professors:
Support professors:
- U2.1 - Introduction to 2D materials
- U2.2 - Emerging physical properties at the 2D boundary
- U2.3 - Application of chemistry to the development of 2D materials
- U2.4 - Applications of 2D materials
Professors:
- U3.1 - Materials for green energy generation
- U3.2 - Energy storage materials
Professors:
- U4.1 - Advanced characterisation and modelling of materials and devices
- U4.2 - Functional materials for ICTs
- U4.3 - Materials for biomedical applications
- U4.4 - Multifunctional materials and devices for sustainable mobility, habitat and the environment
Presentation of the “state of the art” in this area through lectures delivered by specialists in the field, including renowned researchers and industry professionals, organized in the form of the European School of Advanced Materials (ESAM).
The ESAM aims to be a forum for discussion on the current state of various types of advanced materials, where the latest achievements in this research field will be addressed.
Topics of the talks include:- Graphene and other 2D materials
- Materials for energy
- Smart materials with advanced functionalities
The Master's thesis (TFM) must be an original exercise carried out individually and defended before a university tribunal. One member must be external to the student’s university.
Research Lines:
- Graphene and 2D materials: Properties, chemical development, and applications.
- Materials for energy: Generation, storage, CO₂ valorisation, and advanced modelling.
- Smart materials: ICT, biomedical applications, mobility, and environment.
The Academic Commission (CCA) of each university will assign the TFM topic based on staff proposals and student preferences.
Download the course guide