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) using different imaging modes and TEM analysis. - Implementation of advanced techniques such as 4D-STEM and DPC ((Differential phase Contrast) - Acquisition of angle-resolved electronic energy loss maps
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medico-legal documentation of torture through the “Instanbul Protocol” under the form of a multisite ethnographic study -Production of multimodal documents (texte, fixed images) resulting from the research
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researcher will carry out research tasks in IMAG, within the ERC NEMESIS project team, led in IMAG by two principal investigators, Jérôme Droniou (CNRS) and Daniele Di Pietro (University of Montpellier
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collaboration with LIRMM, IRMB/CARTIGEN, and the industrial partner Symétrie. The project lies at the interface of biomechanics, robotics, imaging, and biology, within a stimulating interdisciplinary ecosystem
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Inria, the French national research institute for the digital sciences | Rennes, Bretagne | France | about 2 months ago
(INS2I institute), and the University of Rennes I. The Empenn group operates the Neurinfo imaging facility in the context of a partnership with the University Hospital of Rennes, Inria, the CNRS, and the
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to detect, image, and analyze ferroelectric domains in 2D ferroelectric heterostructures. You will employ advanced cryogenic micro-spectroscopy, and reflection contrast imaging to visualize domain structures
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imaging approaches, molecular genetics and image analyses to investigate relationship between physical characteristics of the cytoplasm and antifungal tolerance in C. albicans cells and communities
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spatial omics data is highly desirable. Knowledge of immunology or image analysis would be considered an advantage. The successful candidate should be able to apply a range of computational tools
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Dumenil, where intravital imaging approaches will be performed. - Conduct independent research on the chosen topic - Design, perform, and interpret experiments - Present results to the scientific community
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interdisciplinary and international working environment, with state-of-the-art imaging and cell and molecular biology platforms, as well as access to the IPGG's microfabrication and microfluidics platform. Where