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candidate will work in the frame of a regional project ESKYMO. His/her missions will include: the definition of the thin films characteristics in relation with the engineer for the growth of the oxide thin
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with other histone PTMs. This work will provide atomic-scale insights into oxidative chromatin regulation and open perspectives for understanding redox-dependent epigenetic mechanisms and future
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concerning the local coordination environments and oxidation states of As, and even less for Bi & W. These objectives will be achieved using fine mineralogy and crystal chemistry techniques combining X-ray
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compositions (carbon, metal alloys, oxides, clays, polymers). The laboratory develops and characterizes these materials, seeking to understand and control their architecture (structure, organization
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The research for this position is to explore the genesis of oxygenic photosynthesis from an older form of photosynthesis that was non-oxygenic and based on sulfur oxidation. Some cyanobacteria are able
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will be responsible for: - Conducting a literature review on nickel-based anode nanomaterials for the oxidation of oxygenated organic compounds. (Literature review report due in the first quarter
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to: • The design, synthesis and characterization of finely tuned graphene quantum dots (GQDs) and/or GQDs hybrid materials as visible-light-active photocatalysts. • The selective photocatalytic oxidation of 5-HMF
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methods to understand and predict the adsorption, self-assembly, and protective behavior of N-heterocyclic carbenes (NHCs) on metallic and oxidized surfaces. NHCs are promising corrosion-inhibiting
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seeking a highly motivated candidate with expertise in oxide material synthesis under inert atmospheres (Schlenk technique), physical chemistry, CO₂ reduction, and photoelectrochemical cells (PEC
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, and the field of research is wide open. This project aims to study new materials based on ferrimagnetic oxides whose spin properties respond to THz excitations both as active materials (e.g. for THz