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position within a Research Infrastructure? No Offer Description We are seeking an enthusiastic and motivated PhD candidate with a strong interest in microfluidics, hardware development and NMR spectroscopy
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Wageningen University & Research offers excellent terms of employment . A few highlights from our Collective Labour Agreement include: Partially paid parental leave; working hours that can be discussed and arranged so that they allow for the best possible work-life balance; there is a strong...
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-content imaging, electrophysiology, microfluidics, organ-on-chip systems or optogenetics will be considered a plus. You work accurately and independently at the bench, while also enjoying teamwork in a
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-content imaging, electrophysiology, microfluidics, organ-on-chip systems or optogenetics will be considered a plus. You work accurately and independently at the bench, while also enjoying teamwork in a
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-occurring signals using phospho-proteomics. Proteins that are potential hubs of signal integration will be characterized through molecular- and biochemical methods. Using microfluidics coupled with advanced
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, biosensing, microfluidic mixing, or self-healing materials. The successful candidate will join the Active Soft Matter Lab within the TNW Faculty, the MESA+ Institute for Nanotechnology, University of Twente
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; apply microfluidics to formulate, track, and analyse milk fat globule mimics in a controlled manner. You will work here The research is part of the HARMOny project, which is carried out between Wageningen
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rheology protocols to investigate the mechanical properties of milk fat and plant lipid droplet interfaces; apply microfluidics to formulate, track, and analyse milk fat globule mimics in a controlled manner
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controlled instructional gradients. Your work will include designing and optimizing experimental protocols, advancing microfluidic encapsulation methods, testing novel polymer materials, and employing cutting
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for constructing smart, adaptive microsystems, potentially useful for targeted drug delivery, cargo transport, biosensing, microfluidic mixing, or self-healing materials. The successful candidate will join the