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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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Engineering! We are seeking a skilled PhD researcher to optimize 3D printed bone scaffolds, exploring the intricate connections between bone microarchitectures and fracture mechanisms under challenging
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screen, we know how to compute the required freeform surfaces (lenses or reflectors). In this project we will develop a Monge-Ampère-based algorithm to design 3D optical systems where light beams can be
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screen, we know how to compute the required freeform surfaces (lenses or reflectors). In this project we will develop a Monge-Ampère-based algorithm to design 3D optical systems where light beams can be
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this project we will develop a Monge-Ampère-based algorithm to design 3D optical systems where light beams can be split and rays may follow different paths. This is important for applications as it may lead to
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will build on the extensive experience and infrastructure of the Ophthalmogenetics lab with iPSC technology for retinal cell/organoid differentiation combined with the innovative 3D cellular bioprinting
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will collaborate with colleagues from Radboud UMC who will work on 3D and in vivo radiobiology. Requirements Specific Requirements You are a highly motivated and talented candidate that holds a MSc
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facilities which offer a plethora of XR technologies, including VR and MR headsets, and an excellent creative team. The main platform for XR development will be Unity 3D, but we are open to exploring other
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to develop dosimetry models to calculate the tumor-absorbed dose in cell experiments, 3D organoid models, and mouse tumor models and to correlate the absorbed dose to the biological effects. Work in a large
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artificial intelligence, preferably with an awareness of space-based processes; Familiarity with spatial data analysis, the use of geographic information systems (e.g. ArcGIS) and 3D modelling (e.g. BIM