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) and high mass (>100 GeV). More details about the team in https://www.cppm.in2p3.fr/web/en/research/astroparticles/index.html#Dar… The candidate will be involved in all experimental aspects, from
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the atmospheric chemistry that controls partitioning of Iodine between gas and aerosol is essential to quantify impacts of radioactive iodine on human health and the environment, as, for example, I-131 in aerosol
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(including ERG and OCT), development of additional functional assays, locally conducted histological analyses, and preparation of samples for collaboration with the Lyon-based team, including quality control
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hybrid nanoassemblies, composed of photochromic molecules in tight interactions with iron oxide superparamagnetic nanoparticles. Particular attention will be devoted to the size control of nano-objects by
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of electrochemical reactions carried out under strong, controlled magnetic fields. Part of the work will involve establishing an in-situ characterisation method, supplemented by research into optimal experimental
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funded by a EU programme Is the Job related to staff position within a Research Infrastructure? No Offer Description The project aims to understand how transposable elements are controlled in the single
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pathway due to folding requirements, supramolecular assembly, and the sheer size of the cargo. Cells must coordinate cargo selection, transport, and quality control to secrete an extracellular matrix (ECM
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to the development of an innovative microphysiological system dedicated to modeling human beige adipose tissue organoids in a controlled metabolic environment. The candidate will design and implement advanced 3D
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estimations of the same person. The research will be based on recent spherical representations such as UniphorM. - Activity 2: Integrate both object and person detection in the control of collaborative robot
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layers and control thermal resistance at the interface; - Operate new synthesis reactors for the production of 3- to 4-inch diamond wafers; - Characterize the coatings produced from a physicochemical point