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Information Eligibility criteria 1. Fundamental knowledge • PhD in virology, molecular biology, or structural biology. • Strong knowledge of structural biology and protein–protein interaction methods. • Mastery
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Targeted Project Complexflows, which aims to promote and structure the interactions of mathematics with other sciences around current issues. The thesis will be co-directed by F. Radjaï (LMGC, ED I2S 166
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affect printability and structural integrity. To ensure strong interfacial adhesion between different materials, the research may investigate chemical and mechanical interactions, by focusing on curing
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ecophysiology, soil health and the water cycle, as well as its impact on human health in relation to microclimates and air quality. The thesis is an important component of this multidisciplinary project and will
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. The doctoral candidate will play a central role in advancing the system from pulsed to continuous operation. The project is structured around two main objectives. First, the candidate will implement controlled
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interactions, nanoparticles can form a variety of nanostructures, with many nanomaterials exhibiting polymorphism – the ability to crystallize into different structures under varying conditions. The internal
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, or text structured in a table. Interdisciplinarity will be at the center of the work, and both interaction with historian teams and the design of web platform that enable the historians to leverage and
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the molecules studied (different lengths of the alkyl chain) self-assemble into perfectly monodisperse nanodomains (NDs) forming, under the effect of surface pressure, hexagonal crystal structures. We also
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Description The PhD student will join the T4-SECRET team (https://igdr.univ-rennes.fr/en/t4-secret-group-kevin-mace ), a young and dynamic group specialised in the structural and mechanistic study of Type IV
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offering a postdoctoral position in multi-messenger astrophysics related to the KM3NeT, SVOM, and COLIBRI detectors. The main objective is to complete the development and optimization of the KM3NeT neutrino