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application development that is integrated to methods of the polymer recovery starting from a PHA-rich biomass. Today, to enhance the viability and ensure storage stability of seeds, they are modified by thin
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(or soon obtain) a Master of Science background in polymer science, chemical technology, or physical chemistry, with expertise in electrochemistry. Practical skills are essential, alongside the ability
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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 microstructure on the failure mechanisms that affect the materials. Ceramic and polymer processing, combined with advanced materials characterization techniques, ranging from electron microscopy to micro
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includes new organic fluorescent dyes and polymer chemistry of passive hydrogel matrices. Besides, you will set up and carry out a range of detection experiments. A separate project in the Cristescu lab
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-ray scattering (SAXS) and NMR relaxometry. Combing this set of challenging techniques, will paint a detailed picture on the encapsulation of nucleic acids by forming polymers from molecular to colloidal
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will make new luminol-based fluorescent compounds and new hydrogel materials that act as a passive host for the detection process. The project includes new organic fluorescent dyes and polymer chemistry
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to investigate the role of the microstructure on the failure mechanisms that affect the materials. Ceramic and polymer processing, combined with advanced materials characterization techniques, ranging from
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involve collaboration with material scientists who are developing responsive polymers driven by electric fields. The PCB Design Engineer will work closely with these scientists to integrate these innovative
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at the intersection of theoretical and experimental physical chemistry and the fields of polymer and colloid science. We focus on gaining a fundamental understanding of the physical and chemical properties and