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: - Studying the functional groups and surface properties of lignin from various sources and manufacturing processes. - Evaluating the mechanical properties, morphology, and interfacial interactions in rubber
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understanding of metabolic mechanisms and functions, particularly in the context of environmental adaptation, using the sea anemone as a biological model of a holobiont. RESEARCH OBJECTIVES The doctoral
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focus on the synthesis of new catalysts; the study of the mechanism, active sites, and kinetics of catalytic hydrogenation of carbon dioxide for methanol production using advanced techniques such as
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mechanisms of thermal non-equilibrium (TNE) and interchange reconnection (ICR). TNE is a thermodynamical state set by a stratified (mainly at the footpoints) and quasi-steady heating. TNE is observed in a
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will be assigned is a group of bioelectrochemists aiming to understand the mechanisms of electron transfer between redox proteins and various electrochemical interfaces. The studies will be carried out
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that formation mechanisms are not very efficient in producing giant planets with large separation (larger than 10 AU). Upcoming high contrast imaging instruments, including SPHERE+ on the VLT and HARMONI