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Max Planck Institute for Demographic Research (MPIDR) | Rostock, Mecklenburg Vorpommern | Germany | 2 months ago
combines expertise in advanced techniques of demographic, longitudinal and spatial analysis. The student is expected to use the opportunity of preparing a PhD thesis as a collection of research articles
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Description Reference number 3705 Pay grade 13 TVöD Place of work Berlin Limited for three years Application deadline 10.06.2025 Apply here BfR job [jsp?id=003705en&dbv3_man=allgemein-Datei
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understand and characterise the real-world variability of conditions for chain drives in high performance sport. Improving the emulation of race conditions improves the optimisation of components for riders
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-supervision of Dr. Claudia Fichtel. The project is part of a broader collaborative effort involving Prof. Peter Kappeler (DPZ), Dr. Ariana Strandburg-Peshkin (Max Planck Institute of Animal Behavior) and Prof
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in functional genomics methods (e.g., single-cell and bulk RNA-seq, ATAC-seq and ChIP-seq) and computational data analysis is considered highly advantageous. Selected references: Jakobsen et al., 2024
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contribute to food safety through innovation in analytical chemistry, within a multidisciplinary and collaborative research environment. You will work here The project is a part of Open Technology grant
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of “the countryside” for both urban and rural residents. The PhD position is part of the NWO-funded research programme Fertile Soils, which conducts inter- and trans-disciplinary research into making relationships
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require a possible adaptation of the supporting logistics concepts for supply, where the role of civil and military cooperation is explicitly part of the analysis. These logistics concepts must be resilient
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the North Sea. The spatial planning and use of the North Sea over the next 30 years will be fundamentally shaped by a shift away from fossil (oil and gas) to renewable (primarily wind) energy. The Dutch
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. In this project, you will study how this impacts the anaerobic removal of methane. You will use state-of-the-art techniques for sampling and analysis (e.g. benthic lander incubations, synchrotron-based