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Field
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have distinctly different properties and devising methods to use each protein fraction to its best performance, and combining the separated proteins in a smart way may be a key to unravel the full
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brain imaging methods as a window into human brain plasticity. Projects will combine new data acquisition with analysis of existing datasets, and may leverage: MRI (structural, diffusion, and functional
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have distinctly different properties and devising methods to use each protein fraction to its best performance, and combining the separated proteins in a smart way may be a key to unravel the full
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Description of the workplace The Acoustofluidics Group at the Department of Biomedical Engineering mainly focuses on the emerging field of combining ultrasonics and microfluidics for particle and
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conducts research and education in innovative and sustainable product realisation. We combine technology, design and user perspectives to create the products and solutions of the future. The Geometry
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empirical support in research for the view that temporal information, in combination with diversification, plays a crucial role in controlling risk. The project aims to investigate how abrupt changes in
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and sustainable product realisation. We combine technology, design and user perspectives to create the products and solutions of the future. The Geometry Assurance and Robust Design research group is
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developed and its application in life sciences promises to bring scientific breakthroughs thanks to its superior spatial resolution and the possibility to simultaneously combine two modalities (Raman and
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breakthroughs thanks to its superior spatial resolution and the possibility to simultaneously combine two modalities (Raman and infrared spectroscopies). Furthermore, the data obtained provides ideal grounds
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developed and its application in life sciences promises to bring scientific breakthroughs thanks to its superior spatial resolution and the possibility to simultaneously combine two modalities (Raman and