24 advance-soil-structure-modelling Postdoctoral positions at University of Southern Denmark in Denmark
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(PV) materials at the nanoscale using electron beam spectroscopy techniques. Our goal is to acquire an in-depth understanding of the nanoscopic electronic structure and the role of defects in advanced
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mechanism regulating their secretion. You will employ advanced techniques including spectral flow cytometry, nano flow cytometry, mass spectrometry, and RNA sequencing. The ideal candidate will have a
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disorders is crucial to identify vulnerable population and develop effective prevention and intervention strategies. Using a focal cortical ablation model in pregnant rats, the project explores neurological
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management systems BMS architectures against cyber threats, ensuring system safety, reliability, and performance through advanced security techniques. You will work on a European-funded project. Job
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, stimulation and transduction of T cells, and standard molecular biology methods, including cloning. Experience with flow cytometry and animal work is essential. Hands-on experience using cancer models in mice
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of making it a practical computational tool in the near term. The project will focus on Gaussian Boson Sampling (GBS), which is a specialized photonic quantum computing model with demonstrated experimental
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of the extremely wealthy individual. The postdoc project enquires into these ethical obligations and should aim to sketch a model of the moral requirements of being extremely rich. We expect the postdoc project
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between the Ministry of Finance and the Danish Confederation of Professional Associations for academics in the state with the associated circular on the protocol for the job structure for academic staff
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or structural bioinformatics are not encouraged to apply. The successful candidate(s) will have access to state-of-the-art supercomputing resources in Denmark and Europe. Contact: hkhandel@sdu.dk Application
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to understand variability in drug toxicity, drug metabolism and drug transport. Examples of this include cell-based models such as induced-pluripotent stem cells, primary human hepatocytes and clinical studies