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related to staff position within a Research Infrastructure? No Offer Description The recent pace and scale of new developments in science and technology have presented our societies with an ever-expanding
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PhD candidate: synthesis and evaluation of biobased covalent adaptable networks (project SusInkCoat)
part of the Faculty of Science and Engineering. You will work in the Sustainable Polymer Synthesis group of Associate Professor Katrien Bernaerts, which focusses on the synthesis and design of polymer
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PhD candidate synthesis & evaluation of biobased, responsive and self-dispersible waterborne resins.
Engineering. You will work in the Sustainable Polymer Synthesis group of Associate Professor Katrien Bernaerts, which focusses on the synthesis and design of polymer materials with tunable properties and
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part of the Faculty of Science and Engineering. You will work in the Sustainable Polymer Synthesis group of Associate Professor Katrien Bernaerts, which focusses on the synthesis and design of polymer
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Engineering. You will work in the Sustainable Polymer Synthesis group of Associate Professor Katrien Bernaerts, which focusses on the synthesis and design of polymer materials with tunable properties and
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Requirements The ideal candidate has successfully completed a master’s degree (or equivalent) in (cognitive) neuroscience, biomedical sciences, biomedical engineering or related disciplines. You are enthusiastic
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skill of your future career, whether as a researcher, entrepreneur, or engineer. The PhD position will be carried out as part of the RegTech4AI project, which brings together six full-time researchers
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13 Apr 2024 Job Information Organisation/Company Maastricht University (UM) Research Field Technology Researcher Profile First Stage Researcher (R1) Country Netherlands Application Deadline 19 May
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. This empirical interdisciplinary project combines insights from sociology of science, philosophy of technology, and AI research to understand how primary stakeholders, such as healthcare professionals and patients
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sustainable source of methane, which can be most effectively valorised via upgrading to ethylene; a crucial feedstock in the production of plastics. Thermal plasma technology is a promising approach for methane