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to the development of an innovative microphysiological system dedicated to modeling human beige adipose tissue organoids in a controlled metabolic environment. The candidate will design and implement advanced 3D
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) and their subsystems, skill in designing printed circuit boards (PCBs), skill in piloting unmanned aerial platforms (multirotors and fixed-wing aircraft), knowledge of electronic circuit analysis
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experience in Data analysis, Data processing and Statistics Extensive experience in PCB design Experience CAD design and 3D printing Experience Graphical User Interface development Demonstrated understanding
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-in-3d-stem-cell-derived-human-organ-models/t11589 Where to apply Website https://www.ceitec.eu/protein-in-cell-nmr-spectroscopy-in-3d-stem-cell-derived-… Requirements LanguagesENGLISHLevelGood
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complexity of in vivo patient tumors. This project aims to overcome that limitation by extending our high-throughput metabolic fingerprinting platform into 3D cancer models such as spheroids and organoids. By
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the field of ceramic 3D printing by Digital Light Processing method. Moreover, basic knowledge in CAD designing and defect fractography, data analysis and similar are necessary. Requirements: PhD in materials
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Dipartimento di ingegneria industriale - Università degli Studi di Padova | Italy | about 1 month ago
of the 3D-printed clips; Analysis of the results Where to apply Website https://pica.cineca.it/unipd/ Requirements Additional Information Eligibility criteria Eligible destination country/ies for fellows
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NOx emissions will also be explored. This research is expected to be published in peer-reviewed journals. Keywords: Porous burner, 3D CFD, hydrogen and ammonia combustion modelling, heat transfer
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the experimental design, data analysis, and dissemination of results (manuscript preparation, presentations, etc.), so a high level of written and spoken English is required. Where to apply Website https
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analysis of large datasets, high-throughput metabolomics, time-lapse microscopy, to investigate how to pharmacologically interfere with fundamental mechanisms in the regulation of cancer metabolism