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project to help shape the future of communications! Job description Join the frontier of innovation in 6G: the future of mobile networks technology! In the Netherlands, a unique alliance of 60 top-notch ICT
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computer science, geoinformatics/geomatics, engineering, or related discipline. Background in at least two of the following domains: structure & infrastructure modelling, algorithmic decision-making, transportation
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medical technology and patient care practices? What role can virtual and augmented reality play in the future design of healthcare facilities, and how might these technologies influence patient and staff
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be further tuned. The PhD student will be appointed at the Aachen-Maastricht Institute for Biobased Materials of Maastricht University, which is part of the Faculty of Science and Engineering. You will
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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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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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Mechanics Management & Design, Engineering Structures, Geoscience and Engineering, Geoscience and Remote Sensing, Transport & Planning, Hydraulic Engineering and Water Management. Click here to go to the
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the inherent challenges posed by defects such as fiber misalignment, porosities, and uneven cure, which jeopardize the structural integrity and longevity of the blades. To understand where the defects come from
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upcoming hydrogen economy, understanding the hydrogen embrittlement (HE) in structural metals is essential for future hydrogen infrastructure. In particular, knowledge and control of the degrading effect