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injection, ion transfer, and structural dynamics in realistic and model systems for battery materials. The position will span experimental efforts at large scale X-ray facilities, handling and reduction
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The project’s focus will be on modeling novel silicone polymers and elastomers and developing mechanical design for storage of energy in the form of large elastic deformations. A close collaboration with chemists
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imaging-driven quantitative Mass Spectrometry-based omics methods, both at bulk population and single-cell levels, for this project. You will work closely with experts in cellular signalling, proteomics
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focus on charge injection, ion transfer, and structural dynamics in realistic and model systems for battery materials. The position will span experimental efforts at large scale X-ray facilities, handling
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will develop imaging-driven quantitative Mass Spectrometry-based omics methods, both at bulk population and single-cell levels, for this project. You will work closely with experts in cellular signalling
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Are you interested in active nanomaterials and can you contribute to the development of polymer-based nanomotors? Then the Interdisciplinary Nanoscience Center invites you to apply for a 1-2 year
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Organoid model culturing Mouse model optimization and validation You will report to the Professor Bent Deleuran and Associate Professor Stinne Greisen Your competences You have academic qualifications at PhD
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(RAG) models – are shaping professional expertise and practice across diverse Danish public sector domains, especially among frontline workers, including caseworkers, service providers and welfare
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for Biomedical Quantum Sensing which aims to revolutionize biomedical imaging and diagnostics by developing novel microscopes based on quantum-enhanced measurements. Joining our team means taking a leading role in
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become attractive for commercial partners Develop research applications of Doppler wind lidars Supervise MSc student projects and co-supervise PhD students Apply for funding within remote sensing for wind