Advanced, but fundamental topics central to the understanding of theory in chemistry and for solving actual chemical problems with a computer.Examples are:* Operators derived from principles of relativistic quantum mechanics* Relativistic effects + methods of relativistic quantum chemistry* Open-shell molecules + spin-density functional theory* New electron-correlation theories

Advanced topics of theory and method development in quantum chemistry: The lectures will span various important issues of contemporary quantum chemistry. For a detailed presentation see the Contents section; all topics from the list given thereare addressed during the course, but some topics will be selected tobe considered in greater detail.

Selected chemistry topics, covered in depth:1a) Chirality and other aspects of stereochemistry1b) The origin of biomolecular homochirality2) Chemistry and sustainability.3) Origin of life: The amyloid peptide world hypothesis, compared with the RNA world hypothesis.

The lecture provides an introduction to some of the physical fundamentals of chemistry, in particular radioactivity, quantum mechanics, the structure of matter and an atom, the periodic table of elements, and chemical bonding.

Introduction into the basic concepts of electronic structure theory and into numerical methods of quantum chemistry. Exercise classes are designed to deepen the theory; practical case studies using quantum chemical software to provide a 'hands-on' expertise in applying these methods.

Seminar series covering current developments in Physical Chemistry

Foundations of chemical thermodynamics: Entropy, chemical thermodynamics, laws of thermodynamics, partition functions, chemical reactions, reaction free energies, equilibrium conditions, chemical potential, standard states, ideal and real systems and gases, phase equilibria, colligative properties, with applications to current research at the ETHZ.

Thermodynamic foundations of phase equilibria, intermolecular interactions, and molecular self-assembly; kinetics of chemical reactions and transport processes

Kinetics of chemical and biochemical reactions, inparticular also of katalysed reactions. Surface- and transport-phenomena, characterization of open systems.

The student will carry out a literature study on a topic of his or her liking or suggested by the supervisor in the area of computer simulation in chemistry, the results of which are to be presented both orally and in written form.

No description available.

Seminar on theoretical chemistry, molecular spectroscopy and dynamics (research seminar)