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-destructive, fast, and suitable techniques for qualifying integrated electronic circuits at the end of their first life cycle, in order to facilitate their reuse. 1. Study of the main aging mechanisms and their
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of osteoclasts, particularly in relation to age and sex. The project is being carried out through a close collaboration between two teams at LP2M — the Osteoimmunology team, specialized in studying osteoclast
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electrochemical evolution, reaction mechanisms, and aging phenomena at electrode-electrolyte interfaces. This position is part of the national PEPR Batteries program. The project aims to develop innovative
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absorption spectroscopy) and material characterisation is essential; An interest and some experience in the study of archaeological materials and the history of technologies and materials of the Middle Ages
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. Several assembly strategies will be investigated, including molecular bonding following plasma surface treatments, the use of functionalized conductive molecules to create an efficient bond between silver
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/develop predictive models that can inform future land management and conservation strategies. Responsibilities • Data mining: Compile, review and complete pollen data and age-depth models from existing
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contract for a junior postdoctoral researcher (with less than two years' experience) is available at the Institute for Research on Cancer and Ageing (IRCAN) in Nice, France. The contract is funded by