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-water boundary: shoaling wave dynamics; shore morphology influences; coupling to meteorological conditions. Specifically, the scholar will have a primary responsibility for management and oversight
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with data-based models and numerical dynamo simulations. The successful candidate will contribute to studies of time-averaged geomagnetic field morphologies and core dynamics during transitional events
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. The open position is part of the NAXDivo Core project, funded by the Fonds National de la Recherche (FNR), which aims at generating and analyzing whole organism models (zebrafish and mouse) to dissect
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understanding of geomagnetic field evolution across different timescales, including both stable and extreme periods. This will involve working with data-based models and numerical dynamo simulations
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). This inquiry will include development of new experimental approaches to characterizing the acoustics at the shore-water boundary: shoaling wave dynamics; shore morphology influences; coupling to meteorological
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Postdoc in development and testing of electrodes for liquid alkaline water electrolysis - DTU Energy
of catalytic materials for both hydrogen and oxygen evolution Application of catalyst particles on electrode substrates with different morphologies Coating of electrode materials with protective and catalytic
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analyzing whole organism models (zebrafish and mouse) to dissect the pathophysiology of a recently identified rare pediatric neurometabolic disorder. The approach involves mainly deep longitudinal phenotyping
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of phylogenomics to work with Professor Tiago Simões. The Simões lab is broadly interested in phylogenetic methods and applications, using morphological and genomic data for reconstructing evolutionary
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analysis and is increasingly used in cancer research to uncover morphological features linked to disease pathology and severity. Similarly, molecular profiling through ‘omics technologies has provided new
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expertise in organoid models of neurodevelopment to join our team and be involved in a MRC funded project aimed at generating region-specific brain organoids and assembloids from multiple gene-edited human