EC 1. The graduate of the Master of Materiomics programme has an in-depth understanding of the fundamentals of functional materials, especially with regard to the relation between composition, structure and functional properties at all length scales and in their operating surroundings.

DC1.1 The student is able to explain the structure of materials and apply this knowledge.

DC1.2 The student is able to explain properties of materials and apply this knowledge.

DC1.3 The student is able to explain techniques for characterization and modeling of materials.

DC1.5 The student is able to explain synthesis and deposition methods for materials.

DC1.6 The student can understand properties from the structure.

EC 3. The graduate of the Master of Materiomics programme has insight in how modelling or synthesis methods predict and affect functional properties and is able to design sustainable materials based on in-operando functionality making optimal use of the synergy between computational and experimental methods.

DC3.1 The student is able to apply techniques for characterization and modeling.

DC3.2 The student is able to predict properties from structure using modeling methods.

DC3.3 The student understands how a synthesis affects the properties of a material.

DC3.4 The student is able to select, justify and optimize the appropriate characterization/modeling technique and method to investigate structure, synthesis, properties of materials and devices.

DC3.6 The student is able to justify the choice of a synthesis method in view of a particular property and/or structure of a material.

DC3.7 The student has knowledge of experimental concepts and methods. [learning pathway interdisciplinarity - identification: the student knows which phenomena are studied in the various disciplines and which methods and theories are used]

DC3.8 The student has knowledge of computational concepts and methods. [learning pathway interdisciplinarity - identification: the student knows which phenomena are studied in the various disciplines and which methods and theories are used]

DC3.9 The student is able to relate experimental and computational concepts and methods and combine both to enhance his/her understanding of material behavior and to predict it with a view to functionality. [learning pathway interdisciplinarity - coordination: the student is able to make connections between different perspectives]

EC 4. The graduate of the Master of Materiomics programme is able to autonomously consult, summarise and critically interpret international scientific literature, reference it correctly and use it to explore and identify new domains relevant to the field.

DC4.1 The student is able to look up and select appropriate international scientific literature from a variety of disciplines related to materials-related problems or research questions.

DC4.2 The student is able to correctly and completely reference to scientific literature.

EC 10. The graduate of the Master of Materiomics programme is able to autonomously acquire new knowledge and monitor, evaluate and adjust one’s learning process.

DC10.5 The student is able to relate new material-related interdisciplinary knowledge to his/her existing disciplinary knowledge base. [learning pathway interdisciplinarity - coordination: The student is able to make connections between different perspectives]