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Description

To acquire basic notions related to the evolution properties of complex supramolecular systems (in their structures and dynamics) and that involve a combination of diversity generation and selection processes. To understand the emergence properties in complex (bio)chemical systems.

  • Dynamic principles in supramolecular self-assemblies: systems functioning either at or out of thermodynamic equilibrium (2 hours)
  • Examples of dynamic behaviors in living systems (2 hours)
  • Complex structures in supramolecular self-assemblies (2D / 3D / topology and knots) (4 hours)
  • Auto-catalysis and self-replication (2 hours)
  • Dynamic combinatorial chemistry: principles and applications in biology, catalysis, and materials (4 hours)
  • Synthetic principles and examples of optimized functions by directed evolution (2 hours)
  • Molecular machines and motors – out-of-equilibrium motions and related functions (4 hours)
  • Supramolecular polymers under thermodynamic, kinetic, or dissipative conditions: mechanisms, structures, applications (4 hours)

Compétences visées

Understand the fundamentals and the implications of the current state-of-the-art research related to supramolecular systems.

Contact

Responsable(s) de l'enseignement
Nicolas Giuseppone : giuseppone@unistra.fr

MCC

Les épreuves indiquées respectent et appliquent le règlement de votre formation, disponible dans l'onglet Documents de la description de la formation

Régime d'évaluation
CT (Contrôle terminal, mêlé de contrôle continu)
Coefficient
2.0

Évaluation initiale / Session principale - Épreuves

LibelléType d'évaluationNature de l'épreuveDurée (en minutes)Coefficient de l'épreuveNote éliminatoire de l'épreuveNote reportée en session 2
written test
CTET1202.00

Seconde chance / Session de rattrapage - Épreuves

LibelléType d'évaluationNature de l'épreuveDurée (en minutes)Coefficient de l'épreuveNote éliminatoire de l'épreuve
written test
CTET1202.00