After a successful participation in the course the student is expected to
give examples of and describe important research results within the field of functional materials
describe the basic principles of basic electronic structure methods
identify and relate a number of experimental methods as well as point to and use their basic information content with respect to the electronic structure of functional materials.
The course objective is to learn about important experimental and theoretical methods for studying the electronic structure of functional materials. Functional materials cover a wide range of organic and inorganic materials that have functionality for energy storage, artificial photosynthesis, nanoscience, catalysis, high temperature superconductivity, magnetoresistance etc. The study of electronic structure of these materials is paramount to reach a thorough understanding at the atomic and molecular level. We offer a combined approach of introducing experimental and theoretical methods that our department is specialised in: photoemission spectroscopy, x-ray emission spectroscopy, density functional theory calculations etc. Lectures will be given by teachers from our department who are experts in the respective sub-fields.
Lectures will be given by teachers from our department who are experts in the respective sub-fields.
Lectures and seminars. The course is given in English.
The examination will be in form of project assignments related to the electronic structure methods.
week 10, 2013
Made to measure : new materials for the 21st century