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. The candidate will be engaged in synthesis of new materials and characterization of these materials using BET/DFT surface area analysis, DSC, x-ray diffraction, Raman and IR spectroscopy etc. It is also planned
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simulations of hydrogen bunkering and transfer systems on board ships. Analysis of temperature development, mass and energy balances, and flow/pressure variations during fueling and operation. Material testing
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behavior during transport, compression, and fueling under realistic port conditions. Analysis of intermediate storage concepts tailored to different port profiles. Evaluation of energy efficiency and
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summary of max 1,000 words must be included, outlining the methodology, theory, results/analysis. A CV in English demonstrating eligibility for doctoral studies in Sociology of Law. Degree certificates and
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than Swedish, Danish, Norwegian, or English, a summary of max 1,000 words must be included, outlining the methodology, theory, results/analysis. A CV in English demonstrating eligibility for doctoral
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combines: Fluid dynamics and heat transfer (theory and experiments), Computational modeling, and Machine learning / computer vision for data analysis and pattern recognition. The goal is to improve
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courses and conduct independent research, leading to a doctoral thesis in business administration with a focus on entrepreneurship. The course component of the doctoral program corresponds to 90 credits
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experience in standard biochemical analysis methods, advanced molecular cloning techniques, CRISPR/Cas9 and experience in culturing and transfection of eukaryotic parasites. Experience in light microscopy
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hours will be devoted to your own doctoral studies. Project work will mainly include geological field mapping, outcrop sampling, sample preparation, geochemical analysis, microanalytical characterization
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: Fluorescence microscopy and image analysis Expertise in cell culture and molecular biology techniques Experience with additive manufacturing (3D-printing) technology Knowledge of microbiology and cancer cell