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recombinant form with cutting-edge methods. - To implement methods for immunisation and production of monoclonal antibodies and nanobodies against the different PLA2 antigens. - To characterize the molecular
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materials based on π‑conjugated small molecules and their solids. The work focuses on establishing robust structure–property–performance relationships that guide molecular and materials design. The researcher
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of an object become as small as certain characteristic distances (coherence length, mean free path, etc.). The third area extends the concept of "soft matter" to biological systems. The themes range from complex
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European project (IsoPROPEL) in close collaboration with Forschungszentrum Jülich (Germany) for cell design and catalytic testing and ITQ Valencia (Spain) for the synthesis of catalysts. The overall goal
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operating in the short infrared (i.e., up to 2.5 µm) as well as in the mid-infrared (3–5 µm). We are particularly interested in controlling the light-matter interaction in these components by introducing
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. The doctoral project will focus on three main research axes: 1. Evaluate and improve ice sheet models: propose original analyses to test model robustness, for example by studying the spread of results from
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the production of high-value compounds. Chlamydomonas strains overexpressing Rubisco will be engineered in order to test the functional consequences on photorespiration and pyrenoid structure and determine
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will then be prepared and tested by our collaborator in different types of relevant cells. - Preparation and validation of gene libraries. The recruited person will have to design and prepare DNA
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vary from 0.1 to 100 depending on plant species, target part of plant, soil properties and the chemical form of Se supplied to the soil or the solubility of those initially present in the soil. The first