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multi-parametric flow cytometry, immunophenotyping, and in-depth functional assays of T cells from individuals infected with mosquito-borne pathogens. Develop and optimize novel immunological assays
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performs research at the interface of tissue, tumor, and vaccine immunology. Our overarching goal is to identify processes that optimize immune responses for application to the design of novel cancer
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. Oversee instrument repair and service coordination. Maintain detailed documentation of instrument performance, service logs, and corrective actions to ensure optimal operation and data reliability. Flow
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chemical–biological pathway. The advertised positions will support these efforts through research on advanced carbon capture methods, process modelling and optimization, and biological CO2 valorization in
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and chemoproteomics studies Help develop and apply biochemical, biophysical, and metabolic stability assays Screen compounds; analyze and interpret data Apply data to the iterative design of optimized
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optimizing simulation tools such as CalPhad to support experimental findings. Conducting in-depth metallographic analysis and establishing correlations between mechanical properties and microstructural
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innovative cutting-edge research at the Institute of Ophthalmic Research (FIA) and thus combines pioneering basic research with clinical translation in order to optimally bring new diagnostic procedures and
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of expression systems Metabolic flux analysis for pathway characterization and optimization Development and operation of continuous fermentation processes under strict anaerobic conditions Strategic contribution
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optimize large-scale distributed training frameworks (e.g., data parallelism, tensor parallelism, pipeline parallelism). Develop high-performance inference engines, improving latency, throughput, and memory
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DTU Physics seeks a talented and motivated postdoctoral researcher for a 2-year position in computational nanophotonics. The goal is to use inverse design, such as topology optimization