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Description The selected candidate will join the team studying the signaling pathways responsible for the assembly of nuclear pore complexes during the cell cycle in healthy and diseased cells, in
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will be involved in the Trusted Autonomous and Self-Adaptive Systems for Defence (SAACD) project. This project aims to overhaul the engineering and development of this type of complex system. A SAACD can
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to prepare complex molecular systems and opening the possibility of spectroscopy of well prepared species with application foreseen in molecular physics and in nuclear physics. In particular it will be
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and regions involved in protein interactions. In recent years, the field has moved from the analysis of purified complexes to proteome-wide studies thanks to fundamental instrumental and bioinformatic
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recruiting a Post-doctoral Researcher for the study of the structure-function relationships of ribonucleic complexes during the translation initiation stage in higher eukaryotes. The project will consist in
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series of heterobimetallic complexes, graft them onto solid supports using a surface organometallic chemistry approach, and evaluate their catalytic performance in C-H bond activation. This work is part of
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-scale, shallow, planar cracks in rocks, faults span a broad range of length scales (10-6-103 km) and surface-to-depth widths (1-102 km) and have a complex 3D architecture (e.g., Giampietro et al., 2025
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resonance, weak interactions with solvents, molecular complexation, and chirality induction. Lately, a new chiral spectroscopy has been identified mixed: the eCP/Raman [1]. In this context, this project is
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conditions can be complex and requires adaptation strategies. To overcome these limitations, the RESIL-AV project aims to improve detection accuracy by leveraging a network of heterogeneous sensors. This will
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complex and performance-oriented features, present a large attack surface that traditional verification techniques—such as formal methods—struggle to cover. To effectively mitigate this growing threat