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Concepts in Soft Matter Physics, CSiS, Lecture 1: Review of thermodynamics.
Concepts in Soft Matter Physics, CSiS, Lecture 2: Review of statistical mechanics.
Concepts in Soft Matter Physics, CSiS, Lecture 3: Non-equilibrium thermodynamics - transport in terms of fluctuation relaxation
Concepts in Soft Matter Physics, CSiS, Lecture 4: Non-equilibrium thermodynamics - continuation of transport in terms of fluctuation relaxation and selected examples
Concepts in Soft Matter Physics, CSiS, Lecture 5: Non-equilibrium thermodynamics - balance equation approach to transport
Concepts in Soft Matter Physics, CSiS, Lecture 6: Non-equilibrium thermodynamics - Green-Kubo relations for the transport coefficients using the thermal conductivity as an example
Concepts in Soft Matter Physics, CSiS, Lecture 7: Entropy production in a steady state
Concepts in Soft Matter Physics, CSiS, Lecture 8: Chemical complexity and the second law versus evolution
Concepts in Soft Matter Physics, CSiS, Lecture 9: Percolation in the contexts of materials and critical points
Concepts in Soft Matter Physics, CSiS, Lecture 10: Fractal particle networks including comments on chaos and on the mathematics of self-similarity (scaling)
Concepts in Soft Matter Physics, CSiS, Lecture 11: A brief introduction, the probability distribution of the end-to-end distance and Flory`s calculation of the exponent
Concepts in Soft Matter Physics, CSiS, Lecture 12: Rubber elasticity and characteristic ratio for chains of independent monomers
Concepts in Soft Matter Physics, CSiS, Lecture 13: Continuation - characteristic ratio in the cases of freely jointed, freely rotating and monomers with hindered rotation
Concepts in Soft Matter Physics, CSiS, Lecture 14: Transfer matrix and rotational isomeric state approximation
Concepts in Soft Matter Physics, CSiS, Lecture 15: The self-consistent field approach
Concepts in Soft Matter Physics, CSiS, Lecture 16: Lattice statistics of crowded polymers (solutions, melts and gels)
Concepts in Soft Matter Physics, CSiS, Lecture 17: Mechanical analysis of viscoelastic (polymer) materials
Concepts in Soft Matter Physics, CSiS, Lecture 18: Rouse dynamics of a single chain
Concepts in Soft Matter Physics, CSiS, Lecture 19: Examples and applications of reversible molecular self-assembly; equilibrium size distribution and critical micelle concentration
Concepts in Soft Matter Physics, CSiS, Lecture 20: Phenomenology of growth and shape
Concepts in Soft Matter Physics, CSiS, Lecture 21: Surface tension, work of adhesion and wetting
Concepts in Soft Matter Physics, CSiS, Lecture 22: Computational aspects of surface tension
Concepts in Soft Matter Physics, CSiS, Lecture 23: Micellar solutions at higher concentrations – coupling of growth to shape and orientation for rod-like aggregates
Concepts in Soft Matter Physics, CSiS, Lecture 24: Liquid crystallinity
Concepts in Soft Matter Physics, CSiS, Lecture 25: Thermal shape fluctuation in the context of stability
Concepts in Soft Matter Physics, CSiS, Lecture 26: Outlook – Computational Materials Science
