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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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novel biomaterials for dynamic organoid cultures. The candidate will engage in research related to discovering and engineering biomaterials for the control, differentiation and patterning of various
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student will study CILP regulation, interaction, function and mode of action using an innovative 3D cell culture model containing human stem cell-derived cardiomyocytes and cardiac fibroblasts (engineered
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PhD candidate: synthesis and evaluation of biobased covalent adaptable networks (project SusInkCoat)
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 work in the
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, the synthesis work will be 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