Study programmes

The study program has a strong interdisciplinary character connecting physical chemistry, material chemistry and/or biochemistry on one side with the methods of modern computational chemistry on the other side. Graduates of the program are expected to be able to solve independently problems dealing with the structural and dynamical properties of nanoparticles and intermolecular complexes by means of computational chemistry tools. Graduates will also have a basic knowledge of traditional experimental and theoretical disciplines in science, including molecular spectroscopy, structural analysis, thermodynamics and electronic structure theory. Due to the interdisciplinary character of the program the graduates must have the knowledge of at least one additional chemistry field, depending on their choice of thesis theme (inorganic, physical or organic chemistry or biochemistry). The goal of the program is to help talented students to become experts in computational chemistry, competitive in an international content, able to take part in international projects. It is therefore essential to provide students an international experience and world-wide contacts. It is expected that students will spend some time abroad or will take an active participation on international conferences or they will actively work on international projects. Major part of the study is in English.

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