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contribute to a better understanding of the recrystallization mechanisms, which strongly depend on this energy contribution. This characterization will be carried out using various synchrotron diffraction
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coordinated by Andra on nuclear waste management. The aim of the study carried out at IJCLab is to develop an innovative method for managing metallic nuclear waste in the form of scrap and powder
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valued. As the project is primarily experimental, the candidate should be familiar with: • the use of various techniques, such as electrochemical and spectroscopic methods, • diffraction and scattering
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transparent electrodes) will be studied.Coordinated by the LGP2, and in collaboration with the LMGP, both laboratories in Grenoble, the specific task of ICMCB will be to elaborate metal oxides powders
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laser deposition (PLD); • Implementing partial and total reduction processes of the films, with or without capping layers; • Performing structural and electronic characterization using X-ray diffraction
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of the studied assemblies by X-ray diffraction (XRD) and Raman spectroscopy. The experimental parameters obtained will serve as input data and will make it possible to calibrate the elementary electrochemical
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. - Knowledge in programming, data treatment, electron diffraction simulations, mathematical skills, knowledge about machine learning and artificial intelligence is a plus. Website for additional job details
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considered. This technique consists of extracting the molten polymer by capillary suction via a controlled heat treatment. For this, the parts are coated with a bed of ceramic powder which serves as a porous
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-DSC, MS) will be used to understand the mechanisms and selectivity by identifying reaction intermediates. The synthesized materials will be characterized by X-ray diffraction (XRD), FTIR, Raman