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CRSA - Postdoctoral position on high- resolution root zone soil moisture estimation by assimilation of microwave-derived surface soil moisture About UM6P: Located at the heart of the future Green
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GSMI - Postdoctoral Researcher - Plant Ecology and Soil-Plant Interactions in Vegetated Photovoltaic
. Analysis of vegetation effects on microclimate. Participation in the analysis of soil–plant interactions (composition, moisture, microbiology). Scientific valorization: publications, reports, and
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, temperature). Design and test lab-scale reactors for wet scrubbing of acid gases (SOx, HF) using mine-derived carbonates. Investigate the effects of impurities (P, F, Mg…) on gaz neutralization efficiency
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synthesis will involve wet chemistry and other well-established solid-state methods. Required qualifications: The candidate must hold a PhD degree in Materials Science, Materials Chemistry, Inorganic
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of bacteria and their interactions with the soil community and plants. Key Responsibilities Conduct wet lab experiments to extract, prepare, and sequence metagenomic, metatranscriptomic, and metabolomic samples
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scale. The candidate will primarily focus on extracting and purifying metals from an inorganic matrix by-product, which will then be utilized in MOF synthesis. The material synthesis will involve wet
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vacancy involves designing, synthesizing, and characterizing highly catalytic active MOF composites for photocatalytic CO2 conversion and water splitting. Materials synthesis will involve wet chemistry and
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Engineering, Materials Science, or a related discipline. Extensive knowledge of phosphoric acid production processes (wet-process, thermal process, or others). Proficiency in characterization techniques such as
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precipitation, temperature, and soil moisture by leveraging large multi-source datasets from remote sensing, IoT sensors, and climate models. Design and implement deep learning models for forecasting extreme