Program
Program : Schedule and main sections
| Schedule |
Monday
24 |
Tuesday
25 |
Wednesday
26 |
Thursday
27 |
Friday
28 |
Saturday
29 |
Sunday
30 |
| 09:00-09:30 |
|
L-I |
L-II |
L-III |
L-IV |
L-V |
|
| 09:30-10:00 |
| 10:00-10:30 |
PC-III |
PC-V |
Excursion |
| 10:30-11:00 |
| 11:00-11:30 |
Coffee Break |
Coffee Break |
Coffee Break |
Coffee Break |
Coffee Break |
| 11:30-12:00 |
L-I |
L-II |
PC-III |
L-IV |
L-V |
| 12:00-12:30 |
| 12:30-13:00 |
Sponsor
Talk 1 |
Sponsor
Talk 2 |
Sponsor
Talk 3 |
Sponsor
Talk 4 |
Sponsor
Talk 5 |
| 13:00-13:30 |
Lunch Break |
Lunch Break |
Lunch Break |
Lunch Break |
Lunch Break |
|
| 13:30-14:00 |
| 14:00-14:30 |
| 14:30-15:00 |
L-I |
PC-II |
PC-III |
PC-IV |
PC-V |
| 15:00-15:30 |
| 15:30-16:00 |
PC-I |
| 16:00-16:30 |
Arrival &
Registration |
| 16:30-17:00 |
Coffee Break |
Coffee Break |
Coffee Break |
Coffee Break |
Coffee Break |
| 17:00-17:30 |
Poster
Installation |
PC-I |
PC-II |
PC-III |
PC-IV |
L-V |
| 17:30-18:00 |
| 18:00-18:30 |
Welcome
Reception &
Opening |
Poster
Session |
Poster
Session |
Closing
Discussion |
| 18:30-19:00 |
|
| 19:00-22:00 |
|
|
|
School
Dinner &
Poster Prize |
|
| |
L: Lecture |
|
PC: Practical Course |
|
| Main sections, lectures and practical courses |
| |
| I. Introduction to XRD theory |
| L1. Introduction to X-ray diffraction (Sylvain Ravy) |
| L2. Theoretical aspects of XRD (extinction, symmetry, choice of wavelength, …) (Sylvain Ravy) |
| L3. Theoretical aspects of XRD (anomalous dispersion, twinning, ADPs, disorder, …) (Sylvain Ravy) |
| L4. Data treatement and data reduction (with "remote PC") (El-Eulmi Bendeif) |
| PC1. Data reduction and Identification of phases (CCDC/ICSD) (El-Eulmi Bendeif) |
| II. Structure Determination and Analysis |
| L5. Crystal structure solution and refinement strategies (Philippe Guionneau) |
| L6. Post-refinement analysis: Quality factors, reliability of refinements (Philippe Guionneau) |
| L7. Practical aspects of structure solution and refinement (Philippe Guionneau) |
| PC2. Structure solution and refinement using OLEX (Mickael Bodensteiner, Horst Puschmann) |
| III. Packing and interaction analyses |
| L8. Introduction to intermolecular interactions (Anna Krawczuk) |
| PC3. Packing analysis using CCDC and Crystal Explorer (Suzanna Ward) |
| PC4. Getting better structural descriptions by using OLEX2 - NoSphereA2 (Mickael Bodensteiner, Horst Puschmann) |
| IV. Using aspherical models |
| L9. Introduction to the aspherical atoms model (Paulina Dominiak) |
| L10. Transferability of aspherical atoms (Paulina Dominiak) |
| L11. Properties of the electron density (topological analysis and electrostatic potential) (Enrique Espinosa) |
| PC5. Transferability, aspherical refinement and properties of the electron density with MoProSuite & MoProViewer (Benoît Guillot, Christian Jelsch) |
| V. Crystallography under constraints |
| L12. Diffraction under pressure (why, how) (Maxime Deutsch) |
| PC6. Structures under constraints (Pressure): Through examples with MoPro Suite & MoProViewer (Maxime Deutsch, Emmanuel Aubert) |
| L13. Photocrystallography (why, how) (Lauren Hatcher) |
| PC7. Structures under constraints (Photocrystallography): Through examples with MoPro Suite & MoProViewer (Sébastien Pillet, Elodie Tailleur) |
| L14. Conference on Crystallography and beyond (N.N.) |
|
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