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- MOHAMMED VI POLYTECHNIC UNIVERSITY
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researcher (M/F) to join our team specializing in the synthesis of hollow fiber membranes and/or electrospun membranes. You will be part of a dynamic team working in the field of membrane separation
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and characterizing new materials and membranes for critical minerals separations. The ideal candidate will have expertise in membrane development and electrochemical processes. This position will be
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, and presenting results at conferences. The ideal candidate will possess demonstrated knowledge of membrane fabrication, characterization, and separation processes. Strong attention to detail, excellent
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-based separation and/or membrane technology. Develop novel adsorbents and/or membranes for gas or liquid storage and separation applications. Characterize adsorption and transport properties using
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with a background in cell or molecular biology. Experience with fluorescence or confocal microscopy, GPCR signaling, or membrane trafficking is highly desirable. The successful candidate will contribute
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. Successful candidates will conduct research on protease biochemistry, biophysics, and molecular biology, specifically the study of the intramembrane protease gamma-secretase. Mutations in this membrane
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. This position focuses on implementing innovative separations methods including advanced / designer membranes (e.g., OSN, OSRO) in dynamic filtration systems (to reduce fouling propensity) for lignin oil and water
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modeling and networked biological systems. You will work at the intersection of high-performance computing (HPC), computational biophysics, and machine learning, leveraging leadership-class computing
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epithelial cells and its functional relevance in cancer dissemination. A central focus is the mechanistic dissection of AQP2 vesicular shuttling and regulated membrane insertion in renal collecting duct cells
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multidisciplinary, with faculty members from backgrounds in Chemistry, Chemical Engineering, and Environmental Engineering focusing on different research fields such as catalysis, separation, energy generation