Inhalt
Kommentar |
Lern- und Qualifikationsziele The objective of this course is to develope a profound understanding of noncovalent interactions, supramolecular architectures, and dynamic processes. Voraussetzungen Fundamental knowledge of physical chemistry and organic synthesis. Gliederung / Themen / Inhalte 1. Fundamentals of noncovalent interactions
2. Types of interactions 2.1 Ionic interactions 2.2. Hydrogen bonding and halogen bonding 2.3 Aromatic interactions & dipolar interactions 2.4 van der Waals interactions & solvophobic effect 2.5 Reversibility with dynamic covalent interactions
3. Supramolecular architectures 3.1. Host-guest complexes 3.2 Self-assembly and interfaces 3.3 Supramolecular polymers 3.4 Mechanically interlocked systems
4. Processes 4.1 Self-organization 4.2 Molecular machines
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Literatur |
J. W. Steed, J. L. Atwood. Supramolecular Chemistry. Wiley 2009
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Bemerkung |
Ansprechpartner Stefan Hecht & Michael Kathan 3rd floor Emil-Fischer-Haus
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Prüfung |
Mündliche Abschlussprüfung |