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systems. This experimental project will involve aspects of polymer synthesis, structural characterization by scattering techniques, and characterization of the dynamics by rheometry and dielectric
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for a research project on microscale mechanical characterization of fiber reinforced polymer composites using in-situ microscopic techniques. Much more fundamental insights and measurements at the micro
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Agreement Number 948739 Is the Job related to staff position within a Research Infrastructure? No Offer Description For many applications, polymers have substantial advantages as compared to other materials
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engineering, biomedical sciences, chemistry, applied physics, engineering or materials science. A solid background in biomedicine, polymer chemistry, or strong experimental skills are desirable. The candidate
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on microscale mechanical characterization of fiber reinforced polymer composites using in-situ microscopic techniques. Much more fundamental insights and measurements at the micro-scale are necessary
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conditions. The model can be used to predict critical reheating temperatures for high-quality and optimise the print process of PLA (polylactic acid) and other polymers, parts. [https://iiw.kuleuven.be
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test results. Reporting of the results is also a part of the job. Job requirements To be suitable for this job, we think you will need: A PhD in organic chemistry, polymer chemistry, materials chemistry
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samples and polymers, because of the new dynamical information that it provides. It is still in its infancy in terms of understanding the mechanisms of signal relaxation and sorption and it offers a
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for n-type and p-type doping respectively. Second, doping using low energy phosphorus implantation will be studied, controlling the implantation depth by means of sacrificial polymer films. As a third
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regular base. You isolate, cultivate and study bacteria and fungi which can potentially break down plastic polymers. You make use of next-generation sequencing techniques to study plastic degrading