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is to contribute to the design, development, and deployment of an advanced content moderation framework for immersive 3D virtual environments, such as Roblox and Minecraft. The research staff will play
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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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protocols. Ability to read and interpret detailed mechanical drawings and 3D models of SRF systems and components. Experience developing and maintaining technical documentation, procedures, travelers, and
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analysis of large-scale 2D/3D scientific data. This position resides in the Data Visualization Group in the Data and AI Systems Section, Computer Science and Mathematics Division, Computing and Computational
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Fuel Cells (MFCs) by developing 3D-printed titanium electrodes using Laser Powder Bed Fusion (LPBF) technology to achieve trabecular and porous structures optimised for microbial growth. Titanium is
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Instituto de Investigação e Inovação em Saúde da Universidade do Porto (i3S) | Portugal | 28 days ago
, such as growth and invasion, will be determined. Using in vitro and ex vivo (3D) models of GBM–neuron interaction, based on human samples, the mechanisms by which neuronal activity promotes tumour growth
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selecting appropriate materials, designing components for 3D printing or machining, and integrating rotating machinery and porous membranes into a functional experimental setup. Apply advanced laser-based
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, water, soil, and food. The objectives include the characterization of flexible substrates for use in sensors, the synthesis of nanomaterials as the active layer, as well as the application of 3D printing
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regulations; Maintains 3D printers in the Bioengineering labs including cleanup, and when needed, repairs the Method X, Bambu, and Form 3 printers. This also includes teaching users of the Form 3 resin-based