This course covers state-of-the-art quantum chemical techniques and will help to translate chemical problems into a computational approach that leads to a more detailed understanding.
This course covers the basic principles of quantum chemistry and will help to understand the theory behind chemical bonding, stability, and reactivity.
This course covers the basic principles of physics and chemical bonding and will act as one of the important cornerstones of the BSc Pharmaceutical Sciences.
This course covers state-of-the-art quantum chemical techniques and will help to translate chemical problems into a computational approach that leads to a more detailed understanding.
This course covers all physical organic chemistry concepts that are essential in organic syntheses and will help to design new, more efficient organic reactions.
This course covers state-of-the-art quantum chemical techniques and will help to translate chemical problems into a computational approach that leads to a more detailed understanding.
This course will cover the basic concepts of quantitative molecular orbital theory and will help to understand and predict chemical bonding, molecular structure, and reactivity.
This course covers state-of-the-art quantum chemical approaches and will help to rationally design syntheses, catalysts, or pharmacologically active molecules.
