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characterizations will be based on the use of several analytical chemistry and biochemistry methods, in particular mass spectrometry (MS) and couplings with separative methods. This work forms part of a national
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funded by an EU programme Is the Job related to staff position within a Research Infrastructure? No Offer Description The successful candidate will be affected to a noble gases mass spectrometry platform
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by high resolution mass spectrometry and NMR (600 MHz cryoprobe). Absolute configurations of asymmetric centers will be also examined if necessary. Finally, the obtained structures will be compared
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Diffraction, Electron Microscopy (SEM) (environmental or not), TEM, and EDMA; volume and surface composition analysis using ICP-MS/OES, XPS, Tof-SIMS, Raman, and FTIR; topology analysis using AFM and
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transport and focusing performances, with the aim of getting down to a spot size of less than 50 µm for chemical imaging of biological tissues by mass spectrometry. Different strategies can be followed: 1
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characterize the molecules produced by mass spectrometry and NMR. You will work in a multidisciplinary environment at the interface of organic chemistry, biochemistry and biology. This project will take place
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analyzed by mass spectrometry. The post-doc will analyze the effects linked to these interactions on the intracellular replication of bacteria by fluorescence microscopy. The post doc will have the following
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(chemical and isotopic analyses by plasma source mass spectrometry and ion chromatography), geochemical data interpretation (reactive transport). Obligations and risks As part of this post-doctoral project
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and catalysts generated as part of this project (XPS, XRD, TEM/SEM, mass spectrometry, NMR, etc.). The candidate will be enrolled in the Rosalind Franklin doctoral school at the University of Poitiers
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/she will carry out chemical and enzymatic reactions, purify (by chromatography on silica, ion exchange or steric exclusion...) and characterize the molecules produced by mass spectrometry and NMR. He