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Field
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About HiPPo Fibre lasers are now routinely used in the most advanced production lines for cutting, welding, 3D printing, and marking of a myriad of materials from glass to steel. The ability
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comprising computational biologists, bioengineers, and immunologists. The candidate will have access to advanced platforms for single-cell and spatial omics, 3D tissue modeling, bioreactors, and in vivo models
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, including both 2D and 3D cell-based techniques such as organoids used to mimic human structures and disease states. capability using data analysis software, including at a minimum GraphPad, ImageJ, excel, and
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modelling, CFD mesh generation in complex 3D geometries. Proficient in handling large data sets and the ability to analysis and interpret results. Experience in commercial CFD package such as FDS and ANSYS
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plan and objectives The grant aims to support collaboration on the development of the DB-HERITAGE system, designed to manage data related to built heritage. It focuses on integrating advanced 3D
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grant, with 1 position(s), under the project Liquid3D GA:101045072, title Liquid3D : 3D Printed Soft-Matter Electronics based on Liquid Metal Composites: Nature Inspired, Nature-Friendly, Resilient
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emitters, and vertically-grown AlN for 3D micro-electromechanical systems (MEMS) applications. Requirements Doctoral degree in a suitable area (e.g. electrical engineering, physics, or materials science) A
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(e.g., light-sheet/spinning disk/confocal microscopy) to quantify: relative cell motility, neighbor exchange, and tissue flow across developmental stages 3D cell shape changes, anisotropy, and
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, or xenograft mouse tumor models Experience in 3D cell culture, traction force microscopy, or computational mechanics Familiarity with cell sorting, bioenergetics assays, or multicellular modeling Experience
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to complete the final exam. Desired qualifications: Background in cell or developmental biology, stem cell biology, or neuroscience Hands-on experience with human pluripotent stem cells, 3D cell culture systems