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Field
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involve developing novel biomaterials, establishing protocols for high-precision biomanufacturing by combining both printing techniques, and ensuring optimal cell viability and tissue functionality after
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framed within the NCN OPUS project, "Food Waste Biorefinery for Sustainable Production of Next-Generation Algal-Based Bioproducts," will be implemented. The project focuses on optimizing food waste
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the field of coordination chemistry, including design and optimization of procedures for the synthesis of new coordination compounds containing d-electron metal ions and N-, P- and S-type donor ligands, using
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dynamicsEducation LevelPhD or equivalent Skills/Qualifications Postdoc will be involved in designing and optimizing reaction-diffusion (RD) setups to achieve the self-assembly of hierarchical and tubular structures
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modulator of the hypusination process, a unique modification of the eIF5A factor essential for protein translation. Structure-based studies of protein-molecule complexes and their chemical optimization
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on the efficacy and safety of new therapeutic strategies in the context of bacterial infections associated with COPD. Optimizing technological processes for obtaining stable and reproducible inhalation formulations
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V complexes supported by bis(β-diketiminate) and bis(formamidine) ligands. Synthesis of low-valent Fe and V complexes using a range of reducing agents and optimized reaction conditions. Investigation
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; Familiar with spectrometry coincidence characterization techniques, laser techniques, cross-beam experiments, continuous molecular jet optimization; Ability to communicate fluently in English (written and
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obtained at various stages of the project, ensuring optimal cell viability and tissue functionality, while performing a wide range of biochemical assays, immunostainings, and imaging techniques. You will be
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of biomaterial (hydrogels) formulations for 3D bioprinting, their optimization, and the performance of physicochemical analyses on the obtained cellular scaffolds, as well as evaluation of biopolymer crosslinking