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compounds. Intermetallic catalysts stand out for their exceptional stability and diverse atomic and electronic structures. This versatility allows them to perform efficiently under harsh conditions, offering
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systems, as these interfaces can strongly influence CO₂ activation and methanol selectivity. However, the atomic-scale structure of these interfaces and the mechanisms governing their catalytic activity
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between chemistry and biochemistry. It is structured around two parallel PhD projects: one in chemistry (the position offered) and one in biochemistry, supervised by partner research team. This organization
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Biol. 2023;435:167951. https://hal.science/hal-03929029 [2] Valimehr S (AUS), Vuillemot R (FR), Kazemi M (AUS), Jonic S (FR), Rouiller I (AUS). Analysis of the Conformational Landscape of the N-Domains
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part of the DAMIC-M experiment, currently under construction at the Laboratoire Souterrain de Modane (France). It employs innovative skipper CCD technology capable of single-electron detection with
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in the study of Exotic Nuclei, Structure, Astrophysics and Reactions. The group includes around 15 physicists (permanent researchers, post-docs and doctoral students). The evolution of nuclear
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on surface chemistry and catalysis, with a focus on understanding how halogenation (fluorine and chlorine) and thermal treatments can tailor the electronic and structural properties of NDs. The postdoc will
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that structure ecological communities. The postdoctoral researcher will focus on studying short-term interspecific interactions (on the scale of hours) by developing or adapting statistical methods and handling
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Versailles (ILV) is a laboratory internationally recognised for its expertise in http://www.ilv.uvsq.fr/ (MOFs). It is a CNRS/UVSQ joint research unit (UMR) established in 2006, bringing together all
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PhD position: Nanoengineering refractory compositionally complex alloys for extreme conditions (M/F)
microscopy (SEM) experiments will be used to identify deformation mechanisms and establish structure–property relationships. At the University of Arizona (U of A), state-of-the-art nanoscale characterization