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resulting actuation behavior. You will be working practically in the lab using commercial rheometers, mechanical testers, polarizing microscopes etc., in addition to bespoke equipment built for establishing
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, through clever chemistry that attracts CO2 to the surfaces of 3D spongelike materials (such as metal-organic frameworks, or MOFs); and decarbonise the energy sector by designing new catalysts that will
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exploring urology‑relevant ion channel mechanisms, with translational relevance for conditions such as chronic pain, bladder dysfunction, and other urinary tract disorders. Background information The urinary
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PhD Position in Hydrogen/Deuterium Exchange Mass Spectrometry to Study the Regulation of Lipoprot...
(SDU) is looking for a highly motivated PhD student to join a project on elucidating the mechanisms by which endogenous activators and inhibitors regulate lipoprotein lipase using hydrogen deuterium
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will work on projects where research meets real-world challenges. This includes developing soil moisture maps to reduce damage from forest machinery, testing innovative methods to control pests in
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possible Work location: Geesthacht (near Hamburg) Application deadline: May 11th, 2025 The department of Experimental Materials Mechanics in the Institute of Hydrogen Technology at Helmholtz-Zentrum Hereon
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generalizability modify and extend existing phase field modeling frameworks to capture failure mechanisms associated with hydrogen embrittlement generate and curate datasets for training ML (e.g. DeepONet) models by
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. Research Project You will conduct a research project with the aim to understand the molecular mechanism that allows the transition zone (TZ), a conserved protein complex with unknown molecular structure
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HORIZON MSCA COFUND - 13 Fully Funded PhD Positions in Chronic Inflammatory Disease Research: MAP-ID
. Regulation of chronic neuroinflammation and glioblastoma progression by RNase Regnase-2. 2. Chronic inflammation as a regulator of molecular and cellular mechanisms responsible for the initiation and
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into plant-available forms. This project will determine the mechanisms of microbial phytate degradation in soil and develop microbe-enhanced biofertilizers to reduce dependence on rock phosphate