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bioprocesses for the bioleaching and biorecovery of rare earth elements (REEs) from secondary sources. The successful candidate will investigate the bioleaching capabilities of pre-selected microorganisms and
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Job Description As an element of our scientific research activities at the CBS department, we are conducting innovative research on the development of advanced materials for biomass conversion
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Positions: two postdoc positions in the development of electrodes materials for ultrahigh performance of metal-ion batteries via advanced multi-scale computational modeling About UM6P: Located
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. This project seeks to comprehend how antimicrobial resistance genes (ARGs) disseminate within microbial populations via horizontal gene transfer (HGT) and mobile genetic elements (MGEs) and how these processes
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will use finite volumes methods combined with physics-informed neural networks (PINNs) which offer a flexible technique that merges data-driven approaches with the underlying physics principles, enabling
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to improve efficiency and economic feasibility. Exploring novel material recovery methods to enhance metal extraction and reusability. Optimizing existing recycling processes to reduce energy consumption and
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the coupled numerical model that we have developed for surface and subsurface flows. We will use finite volumes methods combined with physics-informed neural networks (PINNs) which offer a flexible technique
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composite materials, derived from inorganic by-products and other sustainable precursors, is available at CBS.GPE. This position involves the design, synthesis, and characterization of metal-organic
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chemistry, in particular the evaluation of trace elements in phosphate value chain. In terms of research, the candidate will reinforce the team of the CBS department. His/her experience and expertise should
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highly motivated candidate with strong expertise and interest in developing MOFs and their composites for sensing. Metal-organic frameworks (MOFs) have gained significant attention in sensing due