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the fundamental biology of osteosarcoma and how this governs the response to existing and emerging chemotherapeutics. Our aim is to use these insights to identify new treatment strategies and apply them
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to gain insights into the genetic underpinnings of disease and improve genetic risk prediction. We seek to build on previous expertise and methods devised by our teams (see below), including incorporating
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interface that provides operational insights. As the project progresses, you will continuously enhance the ML models to adapt to more sophisticated data, ensuring the tools remain at the cutting edge
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Participation in an exciting consortium project with top-class partner institutions Excellent training, interdisciplinary collaboration, and practical insights in questions regarding negative emission
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perovskite solar cells become viable contributors Supporting European-level technology assessments and contributing to the development of a European Energy System optimization model Providing insights
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through resonant excitation of specific bonds. It will revolutionize the field of biopolymer processing beyond cellulose and yield fundamental insights into supramolecular structure and dynamics in
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(EBSD, EDX, SAXS, TEM) and ex situ/in situ nanoindentation-based techniques (micro-tensile/compression). The insights gained from this investigation will be crucial for optimizing existing Mg-RE alloys
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psychiatry to exceptional medical doctors. Highlighting the translational facet, doctorate students will receive insights into clinical aspects of the disease, and trainee medical doctors gain PhD level
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nearly every disease leaves detectable traces in an individual’s metabolic profile. Nuclear Magnetic Resonance (NMR) spectroscopy of blood offers deep insights into an individual's metabolic state. Despite
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of processes in intact Amazonian forests and their interactions with the atmosphere in the changing Earth system. Building on insights gained from previous and ongoing observational studies at ATTO, this project