1. Intermolecular interactions
2. Inclusion complexes and their use
3. Supramolecular structures on inorganic substrates
4. Molecular self-assembly
5. Molecular modeling in study of supramolecular systems
The aim of this course is to explain the basic principles of supramolecular chemistry, i.e., the character of intermolecular interactions, the receptor-substrate complementarity, and self organization of supramolecular structures. These principles will be illustrated on the series of supramolecular structures used in chemistry, physics, biology and medicine. Methods of molecular modeling suitable for the study of supramolecular assemblies will be shown.
2. Inclusion complexes and their use
3. Supramolecular structures on inorganic substrates
4. Molecular self-assembly
5. Molecular modeling in study of supramolecular systems
The aim of this course is to explain the basic principles of supramolecular chemistry, i.e., the character of intermolecular interactions, the receptor-substrate complementarity, and self organization of supramolecular structures. These principles will be illustrated on the series of supramolecular structures used in chemistry, physics, biology and medicine. Methods of molecular modeling suitable for the study of supramolecular assemblies will be shown.