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attach a copy of the email you receive after saving the report to the application (please see the evaluation guidelines at https://www.helsinki.fi/en/faculty-medicine/about-us/work-us) A numbered list of
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degradation models for multiscale and multiphysics simulations of solid oxide cells Validate models using experimental data (e.g. IV curves, EIS measurements) Apply ML methods in combination with CFD
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Your Job: This work will be performed as part of an agile team unified by a common goal: An Industry partner from semen production provides fresh sperm cells and pre-analysis. A second industry
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Custom-designed membranes; Task 3.4 Cell construction and ORR testing in continuous mode; Task 4.1 Dissemination; Task 4.2 Reporting. The objective of this work is to recover char and ferrospheres from
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. Characterisation of nano-MIP–target affinities shall be explored using fluorescence and Quartz Crystal Microbalance (QCM)-based studies. The MIPs will be developed for use in circulating tumour cell capture
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and museums Free rides on all UT Shuttle and Capital metro buses with staff ID card For more details, please see: https://hr.utexas.edu/prospective/benefits and https://hr.utexas.edu/current/services
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and/or gut infections. A robust B cell response is protective; however, sustained B cell activation can lead to chronic diseases like cancer and/or autoimmunity. The project involves investigating
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- Grant location: Center for Neuroscience and Cell Biology, University of Coimbra III- Scientific supervision/coordination of the grant: Magda Matos Santana; Dina Maria da Silva Rodrigues Pereira; Sara
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engineering, 3D printing, microscopy (light, fluorescence, and confocal), and material testing. Experience in cell culture will also be considered an advantage. Proficiency in English, both spoken and written
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disorders. By integrating iPSC-derived systems, clinical brain samples, and novel cellular models with cutting-edge methodologies—including electrophysiology, single-cell technologies, and multi-omics—we aim