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, spectroscopy, and biomedical validation in clinically relevant environments. Key work assignments include: Design, fabrication, and optimization of high-performance plasmonic nanostructures and SERS substrates
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, tested, analysed, disassembled, components washed, and remanufactured. The established process is optimized considering the chemical process solutions during electrode washing. Finally, the process is
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electrode materials, as well as expertise in electrode characterization for electrochemical synthesis. Our state-of-the-art analytical instruments help us to quickly screen and optimize electrochemical
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-group strategies, stereochemical control, and structural optimization, thereby offering both challenge and creative freedom. Downstream, the monomers will be incorporated into PNA/γPNA oligomers
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as source for input into our GIC simulations. b) Develop efficient optimization algorithms to identify geo-electric fields and GIC hotspots in Sweden. The two year long postdoctoral project is financed
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following: Conduct advanced research on friction stir welding (FSW) as well as friction stir spot welding (FSSW), including process optimization, material behavior, and joint performance. Design, plan, and
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design, MS analysis, identification of reaction products, quantification and subsequent optimization to generate the chemicals, fuels and materials of the future. Furthermore, knowledge of important
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and operation of mass spectrometers (MS), as well as multi-omics data integration and analysis. Detailed description of the work duties, such as: Research and optimization of acoustic cell sorting
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Histological techniques, such as in situ hybridization and immunohistochemistry Confocal microscopy High-throughput screening approaches Development or optimization of molecular and experimental methods
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groundbreaking research. The project is devoted to learning-based control for high-dimensional data. Application to individually optimized immunotherapy for cancer will also be considered. The grant covers two