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. The research will encompass the independent planning and performing of the necessary experiments to develop methods to investigate proteomic alterations in isolated CTCs, combined with methods to enrich and
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may include clinical and biomedical projects. It may also include technique development work aimed at combining imaging techniques and data analysis to provide a more integrated picture of life
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biological systems, and study biological and designed proteins using a combination of classical and advanced techniques including optical and NMR spectroscopy, surface plasmon resonance, light and X-ray
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cluster / micellar phases and arrested phase separation. We plan for theory-oriented work, combining analytical modeling based on liquid theory and coarse-grained simulations to explain experimental
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such as the heart and nervous system, invariably with fatal consequences. The project will focus on probing the molecular factors underlying this instability (see for example https://www.nature.com/articles
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by combining all available data, taking advantage of the varying temporal resolution and different time spans that the records cover. This work will involve Bayesian tools developed by our research
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focuses on developing high-fidelity heat-transfer and fluid-flow models for AM-induced surface roughness, combining DNS/LES, reduced-order models, new correlations, and improved RANS wall models calibrated
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postdoc with a strong background in mathematics/control combined with ability to collaborate with cancer researchers and immunotherapy specialists. The second project, Structure, Dynamics and Control
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combining imaging techniques and data analysis to provide a more integrated picture of life processes in the context of health and disease. To be a postdoc fellow at the AMBER programme you will get