Understanding the concepts of quantum chemistry at the appropriate level to undertake molecular modeling. Determination of geometries, electronic and optical properties of organic molecules using Quantum Chemistry software. Simulation of reaction processes using Quantum Chemistry software
- Enseignant: Frederic Castet
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Understanding
the fundamentals of light-matter interaction, molecular optical spectroscopy
(electronic transitions and molecular vibrations). Analysis and interpretion of
the spectra in the infrared and near-infrared. Analysis and interpretation of the Vibrational
Spectra in Raman scattering Analysis techniques of IR specular reflection (internal and external) and diffuse reflection. Acquire knowledge and master common vibrational techniques for analyzing the mass materials, thin films, interfaces, etc. Optical constants in materials. Acquired skills: mastering the techniques of IR spectroscopy and scattering Raman and understanding the spectra obtained. |
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Lectures:
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- Enseignant: Vincent Rodriguez
- Kinetics: this lecture brings together the issues of kinetics, its theoretical foundations and experimental approaches.
- Statistical Thermodynamics 2: this lecture introduces concepts and methods of statistical thermodynamics for nonuniform or time dependent systems.
- Enseignant: Cedric Crespos
- Enseignant: Frederic Nallet
- Enseignant: Laurent Servant
- Enseignant: Alexandre Baron
- Enseignant: Helene Budzinski
- Enseignant: Cedric Crespos
- Enseignant: Blandine Davail
- Enseignant: Nathalie Geneste
- Enseignant: Benedicte Morin
- Enseignant: Laurent Servant
- Enseignant: Marie-Beatrice Thienpont
This lecture provides an introduction to the physics of the solid state. The objectives are: (i) the description of the lattice vibrations (phonons) as well as (ii) the electronic structure of different types of solids: metals, semimetals, semi-conductors, and insulators. Different levels of description and basic concepts are discussed: the free electron gas model, concept of reciprocal lattice, Bloch theorem, quasi-free electron model, tight-binding model, electronic bands theory, thermal and conduction properties.
- Enseignant: Alexandre Baron
- Enseignant: Cedric Crespos