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, understanding degradation mechanisms, and improving electrochemical performance. The postdoc will work with state-of-the-art facilities for materials synthesis, structural and electrochemical characterization
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the obtained genetic information. 2. Cultivation of plastic-degrading microorganisms and characterization of plastic-degrading enzymes. Common tasks 3. Biodegradation tests and various sampling activities in
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. The position spans electrochemical testing, modeling, microstructural analysis, and collaborative research in an international environment. Your primary tasks will be to Conduct degradation studies to uncover
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equipped with state-of-the-art analysis techniques (https://www.laas.fr/projects/proof/mécanismes-de-défaillances ), including innovative test benches based on ultra-violet optics, necessary for studying
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impact of recent climate change on the permafrost thermal state and its impact on soil organic matter. This work is a small part of the PEACE project that aims at studying how climate-driven degradation
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Your Job: Design and development of a modular high throughput sample environment for chemical hydrogen storage investigations under realistic conditions Design, optimization, and testing of sample
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-performance aqueous batteries (hydronium-, ammonium-, iron-, and/or zinc-ion). The work involves studying electrochemical energy storage and degradation mechanisms of electrode materials, formulating and
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nanoparticles contribute to diseases. Environmental Nanoparticles of interest include those emitted from wildfires, traffic and micro-nanoplastics, the byproduct of degradation of plastics in environmental media
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and the hydrological cycle. These changes include accelerated glacial retreat, reduced snow cover, permafrost degradation, seasonal variations in topography, and an increase in snow and ice avalanches
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stops. At the end of this 3-years-long project, a full demonstrator will be tested in real conditions. This project is ambitious because of the severe performance requirements. The battery pack will have