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the interrogation of chiral systems down to the nanometer scale. Project background Chirality describes whether an object is non-superimposable with its mirror image. Despite being a purely geometric property
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and patient outcomes. The work will combine in vivo biology and advanced imaging with materials science and polymer engineering. Project background The Hydrophobic Effect as a Danger Signal in Foreign
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-lapse microscopy and automated image analysis to quantitatively track single-cell gene expression in controlled dynamic environments. A unique feature of our lab is the tight interaction between our lab's
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biology or advanced imaging are encouraged to apply. The use of multi-disciplinary approaches and research topics that complement those of existing research groups is an asset. The successful candidate is
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adapted to the needs of pediatric heart surgery, modern diagnostic imaging equipment, and a pediatric intensive care unit. Excellent infrastructure for experimental and clinical research is available in
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-mechanical phenomena in Li-Ion batteries You will have the opportunity to use and build upon extensive datasets, code, experience around tomographic measurements of battery materials and components, image
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-PDF), data analysis and modelling for partially crystalline material systems Developing lab-based X-ray multimodalities: X-ray diffraction & imaging presentation of scientific results through
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This project is a collaboration between the Multiphase Fluid Dynamics group (Prof. Supponen) at the Institute of Fluid Dynamics, and the Functional and Molecular Imaging group (Prof. Razansky
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like tufting, machine-based embroidery techniques or non-interlaced 3D pre-forming. Development of advanced imaging and characterization technologies (X-ray micro tomography, EPR imaging and spectroscopy
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: Lastname_Firstname_Portfolio.pdf), to include: images/graphic content illustrating projects relevant to the job short descriptions of the projects included short research articles (if existing and relevant) 4) Research Statement (3