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the Institute for Informatics at the University of Amsterdam, where a second PhD student will use computational modeling to study signaling in microvascular integrity. The project thus involves 2
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the nine thesis topics proposed in this project, please click on the following link: Consortium-wide individual research projects DC1 – Multi-frequency GNSS-R signal processing DC2 – Investigation
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performance. Implement and demonstrate the designed controllers on ASDEX-Upgrade in experiments Build a stand-alone coupled MPC controller (e.g., based on the extended two-point model, DIV1D, or UEDGE) and
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1st, 2024 or sooner. The PhD student will be leading their own research projects integrated into an innovative research line that aims to uncover new MRI signal phenomena in the microvasculature and
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” technique. Here the confocal spot that is scanned through the sample is re-imaged onto a conventional camera, enabling advances in resolution and signal-to-noise ratio. We strive for improving this technique
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an innovative solution by utilising new bio-based aromatic monomers, which are obtained through fermentative processes from European second-generation woody biomass. Expanding on previous studies of polyesters
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Deadline Location today 3 May Amsterdam Job description The research group of Jacqueline Jacobs at the division of Oncogenomics aims to understand the processes that act to safeguard genome integrity but
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PhD candidate: synthesis and evaluation of biobased covalent adaptable networks (project SusInkCoat)
that. Researchers are developing new materials, processes and applications to improve the durability, functionality and recyclability of coatings, thin films and inks. In addition, the consortium is training a new
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PhD candidate synthesis & evaluation of biobased, responsive and self-dispersible waterborne resins.
applications. However, thin films, such as those used in coatings and inks, are lagging behind. The SusInkCoat project is changing that. Researchers are developing new materials, processes and applications
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, compute the target distribution given the source distribution and the layout of the optical system. These methods must be embedded in an iterative procedure to compute the final design and are based