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- Eindhoven University of Technology (TU/e)
- Maastricht University (UM); Published yesterday
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- Eindhoven University of Technology (TU/e); Published 7 Nov ’25
- Eindhoven University of Technology (TU/e); Published today
- Eindhoven University of Technology (TU/e); Published yesterday
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characterization (Dr. de Jong ), polymeric drug delivery systems (Dr. van Ravensteijn ) and nanobody-mediated targeting (Dr. Oliveira ). Ultimately, you will deliver a proof-of-concept for polymer-mediated endosomal
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Products (ATMPs). Your job A promising, yet unexplored, approach to the enhance endosomal escape efficiency of EVs is to engineer hybrid delivery systems by decorating their surfaces with synthetic polymers
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coatings. Learning surface modification techniques based on known chemical coupling strategies. Incorporating of anti-fouling properties through anti-fouling polymers or cation scavengers. Where to apply
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separations. It uses an electrical voltage to generate fibers from a polymer solution that are collected as a fibrous mat. Preferably green solvents are used. Our research group has a worldwide unique triple
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composites. The successful candidate will be jointly supervised by the ETE (Elastomer Technology and Engineering) group, focusing on rubber science, and the SPC (Sustainable Polymer Chemistry) group
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on known chemical coupling strategies. Incorporating of anti-fouling properties through anti-fouling polymers or cation scavengers. Information and application Enthusiastic PhD students stay abreast
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Three PhD positions at TU/e in collaboration with Canon Production Printing, combining polymer science, rheology, and computational modeling to create the inks and coatings of tomorrow. Information
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Are you passionate about the energy transition, reducing CO2 emissions, and recycling? Then you may enjoy the challenge of upcycling pyrolysis waxes from polymer recycling to develop new graphene
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of experimental setups, mechanics, polymer physics, and/or additive manufacturing. Affinity with material characterisation techniques (e.g. rheology, thermal or mechanical testing) is an advantage. A research
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to develop the next generation of PCM composites extracted from upcycled polymer pyrolysis waste streams and thermally conductive fillers. In this PhD project we adopt a molecular modelling approach with which