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male reproductive health. Current knowledge largely stems from animal models that fail to fully recapitulate the complexity of human testicular development. This PhD project aims to develop an organoid
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approaches. Current food product development struggles to handle the complexity of new, sustainable ingredients. This project will address that challenge by developing automated high-throughput methods
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international network structure in order to integrate existing competences and knowledge, and to link various actors within the complex area of climate change. The PhD position is also supervised by Prof. Dr
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. There are many challenges on the way – the family of pyrrolizidine alkaloids constitutes of >600 members of various complexity. And we also need the synthetic route to be practical, to be able to use synthesized
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over 600 known members. These compounds pose a significant risk to food safety, yet their full characterization remains a major analytical challenge due to their chemical complexity and natural
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at the Department. Contact Dr Eikemo for a description of the project: marie.eikemo@psykologi.uio.no Responsibilities Analyze complex datasets from experimental and clinical studies including longitudinal (correlated
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from end-of-life recycled aluminium to reduce embedded carbon level to below 2 tonnes CO2e/tonne of aluminium as a supplied component and eventually to Net Zero carbon. This project is concerned with
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explore the nonlinear structural dynamics of LGSs to fully understand the complexity of their control. They will use this foundation to explore idealised and realistic control laws to virtually “stiffen
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platforms, and an emphasis in deciphering complex protein-protein interaction networks that contribute to the pathogenesis of these diseases. This is a full-time, non-tenure-track position working in
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complex, involving multiple senders and receivers interacting simultaneously within a dynamic network. Social groups also exhibit preferred and avoided associations, creating heterogeneous social structures