09:00
10:00
11:00
12:00
13:00
14:00
15:00
16:00
›9:00 (1h40)
9:00 - 10:40 (1h40)
Communications orales
Marc Baaden
› Exploring protein-protein interaction networks in 3D under the lens of coevolution
- Raphaël Guerois
09:00-09:40 (40min)
› Agnostic exploration of a new pathway for prebiotic glycine synthesis by ab initio and machine learning molecular dynamic
- Léon Huet
09:40-10:00 (20min)
› Free-energy Landscapes of an Intrinsically Disordered Protein: alpha-synuclein
- Patrick Senet
10:00-10:20 (20min)
› A New Neural Network Interatomic Potential for the Simulation of the Thermal and Mechanical Properties of Silica Zeolites
- Luca Brugnoli
10:20-10:40 (20min)
›10:40 (20min)
10:40 - 11:00 (20min)
Pause café
›11:00 (1h40)
11:00 - 12:40 (1h40)
Communications orales
Rémi Maurice
› Study of photophysical properties of azaBODIPY compounds through vibronic calculations
- Ludmilla Verrieux
11:00-11:20 (20min)
› Spin–vibronic mechanism at work in a luminescent square-planar cyclometalated tridentate Pt(II) complex: absorption and ultrafast photophysics
- Souvik Mandal
11:20-11:40 (20min)
› Joint Experimental and Theoretical investigation of excited state vibrational coherences in Mn Single Molecule Magnets
- Julien Eng
11:40-12:00 (20min)
› Modifications of Tanabe-Sugano d6 diagram induced by radical ligand field: ab initio inspection of a Fe(II)-verdazyl molecular complex
- Pablo Roseiro
12:00-12:20 (20min)
› Reference Energies for Valence Ionizations and Satellite Transitions
- Antoine Marie
12:20-12:40 (20min)
›12:40 (1h20)
12:40 - 14:00 (1h20)
Déjeuner
›14:00 (2h)
14:00 - 16:00 (2h)
Communications orales
Bruno Senjean
› The QuantNBody package : a numerical platform for methodology development in quantum chemistry
- Saad Yalouz
14:00-14:40 (40min)
› Divide and Conquer embedding approach for electronic structure calculation.
- Quentin Marecat
14:40-15:00 (20min)
› A new variational density matrix formalism for correlated systems
- Matthieu Vladaj
15:00-15:20 (20min)
› One dimensional model for relativistic quantum chemistry
- Timothee Audinet
15:20-15:40 (20min)
› DFTB molecular dynamics for a quantitatively accurate description of the experimental absorption bands of solvated organic switches.
- Benjamin Ludwig
15:40-16:00 (20min)
