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-based simulations of multicellular tissues in 3D. Where to apply Website https://seuelectronica.upc.edu/en/procedures/call-for-recruitment-of-pdi-postdo… Requirements Research FieldPhysics » Computational
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organoid culture protocols, with a strong focus on patient-derived organoids and cancer organoids. Establishing robust 3D cell culture models, including optimization of culture media, extracellular matrix
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orthodontic appliances, virtual models, digital set-up, CAD/CAM and 3D printing technologies). Recent experience in teaching Dental Technology and a demonstrable interest in research and development in
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spherical 3D convection models. The objective is to characterize subduction from its initiation to its fate into the mantle, in order to understand the links between subduction mechanics, its tomographic
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interdisciplinary projects of developing new cancer immunotherapy, using novel 3D tumor organoid models and 3D single-cell imaging. The incumbent(s) will learn cutting-edge techniques in immuno-oncology studies and
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the knowledge of metabolism and its regulation associated with tumour development, various aspects of molecular and cellular biology, with special interest in the development of 3D cell models, genetics
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. At present there is specific interest in advanced 3D perception techniques such as geometric foundation models, implicit neural rendering (NeRF, Gaussian Splatting) as well as semantic mapping. Our research
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to create analysis‑ready, topology‑correct 3D city models from multi‑modal geospatial data. The position is hosted at the Department of Mathematical Sciences at Chalmers University of Technology and the
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. To overcome these limitations, the TUNIC project will utilize a “phenotype-first” approach. This involves: Creating a 3D “tumor-on-a-chip” (ToC) model: This model will incorporate primary human cells
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mechanical engineering or in a related field, duly recognised in Portugal, whenever legally required. Proven experience in 3D modelling, Design for Manufacturing and Assembly (DFM/DFA), and numerical