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30 Sep 2025 Job Information Organisation/Company MOHAMMED VI POLYTECHNIC UNIVERSITY Research Field Computer science Environmental science Geosciences Researcher Profile Recognised Researcher (R2) Established Researcher (R3) Country Morocco Application Deadline 29 Oct 2025 - 00:00 (UTC) Type of...
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About the recruiter — UM6P Mohammed VI Polytechnic University (UM6P) is a research-and-innovation focused university in Morocco committed to African development. UM6P’s College of Computing (Benguerir & Rabat campuses) advances world-class research and education in Computer Science, fostering...
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, XPS, etc.) to confirm structural, morphological, and magnetic properties. Optimize synthesis routes for reproducibility, scalability, and performance tailored to target applications. Collaborate with
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, or biomolecules. Characterize nanomaterials using advanced techniques (XRD, TEM, SEM, VSM, FTIR, DLS, XPS, etc.) to confirm structural, morphological, and magnetic properties. Optimize synthesis routes
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Engineering, Materials Science, or a related field. Extensive experience in unit operations and chemical processes. Proven expertise in formulation development and product optimization. Ability to design and
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trials, analyze data, and publish findings in high-impact journals. The role requires active participation in an interdisciplinary team to evaluate and optimize integrated soil fertility management
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for teamwork, problem-solving, and collaborative relationships Strong technical background in at least one of the following areas: Mathematical optimization, Resource allocation, Machine learning, Wireless
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formulation development and product optimization. Ability to design and evaluate the performance of unit operations. Experience in physicochemical characterization techniques (rheology, particle size analysis
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, interdisciplinary research team. The position focuses on the development, optimization, and integration of advanced bioprocesses for the bioleaching and biorecovery of rare earth elements (REEs) from secondary
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of fertilizers into the soil. The project aims to develop and optimize innovative porous carriers to enhance fertilizer efficiency, controlled release, and sustainability in agricultural applications