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, is available, linked to two EU funded projects of ASEMlab. The projects are dedicated to the recycling, circularity and waste management of polymers and reinforced composites. The successful candidate
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-on a chip system to uncover and modulate inflammatory processes in the bile ducts. The experiments will be conducted using mainly human material with a high relevance for translation into clinical
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CaO with elements of MgO and Al2O3, all natural constituents of the Mn ore. The effects of electrolyte composition, operating temperature, current density, and electrode material on the Mn/FeMn
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. The effects of electrolyte composition, operating temperature, current density, and electrode material on the Mn/FeMn electrodeposition kinetics, current efficiency, as well as the composition and purity
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established bile-duct-on a chip system to uncover and modulate inflammatory processes in the bile ducts. The experiments will be conducted using mainly human material with a high relevance for translation
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is comfortable with a highly dynamic work environment that must deliver milestones within the agreed timeframe. It is essential that the candidate can cope with flexible working hours as human material