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on different biomaterials derived from PHBV using biofabrication and 3D bioprinting techniques. Where to apply Website https://investigacion.ugr.es/recursos-humanos/personal/contratos Requirements Research
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Science. Explore new possibilities in the study of 2D and 3D magnetic microstructures using a mix of static and dynamic magnetometric methods, as well as advanced static and dynamic magneto-optical domain
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excellence in Japan. Our laboratory (Biochemistry and Systems Biomedicine) is driving innovation in basic medicine by integrating cutting-edge 3D spatial omics and 3D histopathology to unravel the complexities
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Deciphering Streptococcus dysgalactiae subsp. equisimilis Population Genomics and Host-Pathogen Interactions using Advanced 3D Tissue Engineered Infection Models School of Biosciences PhD Research
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to the Interface Region and low corona in 3D, in order to identify the optimum height for flare/CME lift-off prediction in the solar atmosphere. Here, we expect to considerably increase the current
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the context of the Hadstruc collaboration. The Consolidator ERC grant: HADaSTRaLS - From 1D to 3D Hadron Structure with exascale lattice QCD simulations, is awarded to Savvas Zafeiropoulos and will fund
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Materials, Bioinspired Materials and Sustainable Materials. For more details, please view https://www.ntu.edu.sg/mse/research. We are seeking a highly motivated Research Fellow to join our dynamic team
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temperatures using thermography with acceptable accuracy. Evaluation of available components, design and construction of the device, and production of a 3D model. Methodology for surface temperature measurement
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and tumor tissue) to determine their immune cell infiltration profiles 3D imaging analyses using fluorescence microscopy techniques (e.g., confocal laser scanning microscopy, light-sheet fluorescence
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a tool for mechanistic studies and preclinical therapeutic testing. PhD Project 2. Engineering Multicellular 3D In Vitro Models to Elucidate Bone Regeneration Mechanisms Large bone defects and non