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Field
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Join a groundbreaking project at TU/e, partnering with ASML and M2i, to pioneer safer polymer materials for lithographic equipment. Drive innovation in semiconductor manufacturing and shape
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of the position include the design and synthesis of recyclable polymeric electrocatalysts. You will characterize the synthesized polymer electrodes using state-of-the-art chemical analysis tools and develop novel
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characterize the synthesized polymer electrodes using state-of-the-art chemical analysis tools and develop novel methods for purifying polymeric electrocatalysts using liquid chromatography. Furthermore, you
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to the efficiency of a polymer piece. Both Mullins and Payne effects involve microstructural changes of the macromolecular chains and/or the nanoparticle network (carbon black, silica). Their understanding is the key
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: Continued development of existing mathematical models of corrosion/ageing. Development of models of reactive transport through polymer foams. Development of a model of competitive solubility when a polymer is
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emerged as a promising route for recycling waste plastics, as it enables them to be converted into value-added products and is applicable to a wide range of polymers. To develop this recycling route
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-inspired materials based on biomass-derived polymers (e.g., using chitin derived from mushrooms) and sustainable inorganic sources and 3D printing processes to support a low-carbon manufacturing process. For
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a master’s in materials science, chemistry or a related discipline. Experience with either analytical chemistry, nanomaterials, polymer engineering or sustainability principles is desired. Please
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Master’s degree in chemistry, physics, material science or electrical engineering is required. Ideally, you have already a background in organic electronics or in thin film deposition of conjugated polymers
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working on sustainable approaches to the manufacture and recycling of photovoltaic panels. Objectives: As part of the BioFlexPV project, we will develop multilayers alternating films of biobased polymers