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: Development and demonstration of 3D-in vitro environment for of electric field interference neuronal simulation with self-organized networked electrode array Project tasks and objectives: The BRAINET is an EU
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School graduates over a thousand students who are ready to take on great ambitions and challenges. For more details, please view: https://www.ntu.edu.sg/eee We are seeking to hire a Research Fellow to
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tomography and will include using and advancing 3D/4D image quantification for such materials/data plus establishing experiment/data-analysis pipelines. You will develop your own experiments as well as working
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electromagnetic components, along with heat transfer concepts. Familiarity with 3D printing or other rapid prototyping methods will also be considered as an advantage. Strong problem-solving skills, effective
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combining untargeted metabolomics, high-content imaging, and computational modelling, we will systematically compare how 320 small molecules reshape metabolism in both 2D and 3D environments. The resulting
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filaments on the properties and observables of the cluster. Where to apply Website https://www.uam.es/uam/investigacion/ofertas-empleo/contrato-conjuntaenero2026r… Requirements Research
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working in Coding for images and video. Expertise in the following areas will be preferred: Coding for machines Immersive coding Coding for Gaussian Splatting and 3D Image and video treatment with deep
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knowledge of microfluidic automation, including actuators like pumps, valves, and electromagnetic components, along with heat transfer concepts. Familiarity with 3D printing or other rapid prototyping methods
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candidate’s primary responsibility will be to redesign the current biosensor prototype into an optimised customer facing implementation through extensive testing, customer engagement and prototyping. To achieve
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a project linked to the “Helmholtz School for Data Science in Life, Earth and Energy (HDS-LEE)”. Your Job: Develop 3D+t image reconstruction methods in a cell microscopy setting using image sequences