X-ray diffraction technique has been used to determine molecular structure for more than 100 years. Small molecules can be studied routinely, and even gigantic structures like ribosomes can also be determined easily. However, it is also important to work with powders or crystals, which is an unnatural environment compared to the solution phase where most chemistry happens.
We have developed the use of synchrotron x-ray, and advanced neutron sources for studying molecular structure in real reaction mixtures.
The candidate will synthesize metal cluster structures of varying sizes, oxidation states, and flexibilities and perform scattering experiments at major European and international facilities. Candidate will use advanced modeling techniques to solve and refine the structures of transient intermediates in catalysis. These experiments will therefore determine the scope and limits for ‘chemistry beyond the crystal’.
Depending upon the interests of the candidate, the project work can then expect to develop in the direction of self-assembly or cluster growth, or more advanced modeling like molecular dynamics simulations.
The former would involve e.g. microscopy, mass spectrometry etc, while the latter direction would focus on possible solvent interactions using neutron scattering.
How to Apply:
Please send the following documents (all in one PDF file) by e-mail.
1) For European Union applicant: Copy of your national ID card or of your passport page where your photo is printed.
For non-European Union applicant: Copy of your passport page where your photo is printed.
2) Curriculum Vitae (1 page).
3) Letter of motivation relatively to the position (1 page).
4) Copy of your final marks and ranks.
5) Copy of your Master degree and/or Engineer degree if already available.
6) Coordinates of reference persons (maximum 3, at least your master thesis supervisor): Title, Name, organization, e-mail.
If you have questions regarding the application, please contact the supervisors
Desired skills and experience
The applicant should hold a master’s degree or engineer school diploma in chemistry with honors. Applicant would ideally have experience of characterization using x-ray diffraction/total scattering methods. A background in cluster chemistry / polyoxometalate and expertise in e.g. spectroscopy and electrochemistry would also be appreciated. Applicant should also have an interest in learning basic programming skills in e.g. Igor Pro/Matlab/Python etc.
This will be essential for the success of the project, which will involve a mixture of experimental and modelling work at (inter)national laboratories. A good knowledge of English and/or French is also required.
Highlights
| Supervisor | Dr. KIMBER, Simon A.J. |
| Contact Email | s.a.j.kimber@gmail.com |
| Laboratory | Laboratoire Interdisciplinaire Carnot de Bourgogne, interfaces group |
| URL Host Laboratory | https://icb.u-bourgogne.fr/ |
| Laboratoire Interdisciplinaire Carnot de Bourgogne, UMR 6303 CNRS-Université de Bourgogne Franche-Comté, 9 Av. Alain Savary, BP 47870, F-21078 DIJON Cedex, France | |
| Closing date | September 15, 2018 |
| Starting Job | October 1, 2018 |
