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| − | + | Texte introductif | |
| + | '''C = M*I*I''' | ||
| + | |||
| + | ::M: Multiplicity | ||
| + | # One single molecule can present several properties e.g. Multiplicity of binding sites, number of energy levels.... | ||
| + | # Mutiplicity of components: number of components (molecular) /constituents (supramolecular) in the system | ||
| + | |||
| + | ::I: Interaction | ||
| + | # Complentaries of shapes, of charges, of energy levels (Program writing / reading) | ||
| + | # Thermodynamic and kinetic of the interaction (reversibility, lability), covalent / non-covalent bonds, short-range/long-range | ||
| + | # Interactions of molecules with their environments (possibly in flux of energies far from equilibrium) | ||
| + | |||
| + | ::I: Integration | ||
| + | # Collective structuring | ||
| + | # In space: From sub-nano, to meso, to macro | ||
| + | # In time: Modulation of structures, oscillations | ||
| + | # Emergence of new properties because of the network topologies (feedback loops) | ||
| + | # Emergence of new functions | ||
| + | |||
| + | '''Keywords''': Dynamic systems, Adaptive behaviour, Molecular evolution, Smart functional systems, Information-gaining systems | ||
| + | |||
| + | '''Grand challenges''': | ||
| + | # Designing supramolecular systems able to generate complexity | ||
| + | # Reaching emergent properties in complex supramolecular systems | ||
| + | # Producing applications from complex supramolecular systems – societal implications | ||
| + | # Teaching complex systems in chemistry (Strasbourg Erasmus Mundus) | ||
| − | |||
Participants : ?? | Participants : ?? | ||
Version du 19 janvier 2012 à 16:57
Pour modifier la page : login : f1 passwd : cnsc1
Texte introductif
C = M*I*I
- M: Multiplicity
- One single molecule can present several properties e.g. Multiplicity of binding sites, number of energy levels....
- Mutiplicity of components: number of components (molecular) /constituents (supramolecular) in the system
- I: Interaction
- Complentaries of shapes, of charges, of energy levels (Program writing / reading)
- Thermodynamic and kinetic of the interaction (reversibility, lability), covalent / non-covalent bonds, short-range/long-range
- Interactions of molecules with their environments (possibly in flux of energies far from equilibrium)
- I: Integration
- Collective structuring
- In space: From sub-nano, to meso, to macro
- In time: Modulation of structures, oscillations
- Emergence of new properties because of the network topologies (feedback loops)
- Emergence of new functions
Keywords: Dynamic systems, Adaptive behaviour, Molecular evolution, Smart functional systems, Information-gaining systems
Grand challenges:
- Designing supramolecular systems able to generate complexity
- Reaching emergent properties in complex supramolecular systems
- Producing applications from complex supramolecular systems – societal implications
- Teaching complex systems in chemistry (Strasbourg Erasmus Mundus)
Participants : ??
- Object (ceci est un exemple, à adapter pour l'objet du groupe de travail)
- F1 - Reconstructing the multi scale dynamics of multi cellular
- F1 - Physiological functions
- F1 - Ecosystemic complexity
- F1 - From individual cognition to social cognition
- F1 - Innovation, learning and co-evolution
- F1 - Territorial intelligence and sustainable development
- F1 - Ubiquitous Computing
- Questions
- F1 - Perturbations and robustness of complex systems
- F1 - From optimal control to multi-scale governance
- F1 - Reconstruction of multi-scale dynamics and emergence and immergence processes
- F1 - Designing Artificial Complex Systems
- F1 - Emergence: collective behavior and fluctuations out-of-equilibrium