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SUSMAT-RC - Postdoc Position in Computer-Aided Design and Discovery of Sustainable Polymer Materials
candidate will work on an exciting project focused on extracting and analyzing experimental and computational data to develop predictive models for polymer-based materials. This project aims to leverage
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– JORF-Lasfar Work Location: GTI-UM6P and JORF-Lasfar site Contract Type: Postdoctoral Position Main Mission The position holder will be responsible for designing and implementing an optimized, resilient
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Main Mission The position holder will be responsible for designing and implementing an optimized, resilient, and sustainable logistics architecture for the JORF-Lasfar site. His/her work will focus
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considered an asset. Demonstrated ability to perform experimental work at lab scale, with experience in pilot-scale setups considered a plus. Proven track record in designing, conducting, and optimizing
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materials. Job description: ACER invites applications for open rank positions to work as post-doctoral researchers in Carbon-Negative, Capture, Utilization, and Storage. The research areas that post-doctoral
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impeller performance, analyze hydrodynamic characteristics, and identify key synthesis parameters influencing material quality. The resulting models will act as a predictive tool for process optimization and
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of flotation process parameters based on experimental results. Work closely with a multidisciplinary team, including experts in mineral engineering, chemistry, and process optimization. Supervise MSc/PhD
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equipment. You will join an international multidisciplinary team. You will apply simulation, multi-objective optimization, and data-driven analytics to evaluate and compare material intralogistics handling
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degradation mechanisms to improve material stability and cycling performance. Scale-Up and Process Optimization: Work on improving synthesis methods for large-scale cathode material production. Collaborations
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structures, integrating morphing wings and additive manufacturing processes for high-performance and energy-efficient drones. Keywords: Morphing wings, composites, additive manufacturing, aerodynamics, UAV