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. You will be supported by an interdisciplinary supervision team of academics and industry partners, offering complementary expertise, spanning acoustics, nanocomposites, theory and modelling, polymer
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vitro cell assays,and biofilm studies. Experience in working with microbial pathogens and characterizing polymer-bacteria interactions is essential.Familiarity with in vivo animal models for infection and
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exploring multi-functional and sustainable polymers for additive manufacturing in robotics. SUME (https://www.vubtechtransfer.be/sustainable-materials-technology ), is the sustainable materials engineering
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experimental design, identify technical challenges, and contribute to project planning and feasibility assessments. • Conduct polymer synthesis and perform comprehensive material characterization using
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Programme? Not funded by a EU programme Is the Job related to staff position within a Research Infrastructure? No Offer Description The deposition of polymer brushes on solid surfaces creates versatile
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externally funded, convergence research at the intersection of polymer chemistry, surface science, sensor technologies, environmental engineering, with Omics-driven approaches for materials discovery. This is
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analysis At least 5 publications in peer-reviewed scientific journals or patents Modeling in polymer processing, particularly injection molding and extrusion; numerical simulation of transport processes
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framework for the modeling of polymer nanocomposites under nonlinear elasticity at large deformations. The microstructure will be explicitly described at the microscopic scale through nonlinear micromechanics
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polymer composites. This project is a direct, high-impact follow-on from our published work on Composite Fibre Additive Manufacturing (CFAM), a novel sheet lamination technique. The initial research