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and natural sciences. Recent advances provide revolutionary nano-materials/systems whose properties can be customized. The future of science and engineering is expected to be shaped by nano-materials
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filament-wound products, made with an Elium resin. The work will be performed in the Composite Materials Group of the Department of Materials Engineering at KU Leuven (Belgium). You will be supervised by
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of Materials Engineering at KU Leuven (Belgium). You will be supervised by Prof. Yentl Swolfs and Dr. Christian Breite. The work requires a strong background in composite mechanics, materials science and/or
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In the early development of new active pharmaceutical ingredients (APIs), pharmaceutical scientists often have access to only small amounts of material for testing. Even as we move through
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the waste stream and analyze fermentation products. Valuable nutrients will be recovered using membrane technology. Design of Experiments and technoeconomic analysis will be used to optimize and model
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electrochemistry, material characterisation and interfacial science. As part of the project, the researcher will use bespoke corrosion test cells and implement electrochemical measurements to understand corrosion
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by offering a safer and more sustainable alternative to pressure oxidation and cyanide leaching. The enrolling School of Minerals, Energy and Chemical Engineering (MECE) will provide state-of-the-art
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societal impact. We are a young, international and diverse team within the Faculties of Aerospace and Mechanical Engineering. We approach problems in a horizontal “team spirit” and continuously traverse
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MISSION-CCS (Material Science Innovation for Accelerated, Sustainable and Safe Implementation of Carbon Capture and Storage). MISSION-CCS will train 13 Doctoral Candidate Researchers (DCRs) aiming
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the performance, life cycle of lithium-ion cells of the battery pack employed in the BEVs. The need for additional materials and components to handle extreme temperatures can increase the environmental footprint