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and the endoplasmic reticulum. The project will combine approaches in cell biology, biochemistry, and advanced imaging. The candidate will contribute to the development and optimization of experimental
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surface reconstruction and functionalization, enabling greener and more selective fluorination processes for industries such as batteries, pharmaceuticals, and agrochemicals. The scientific theme centers
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, funded by the European Union, which aims to design advanced thin-film solar cells. The postdoctoral researcher will also contribute to the development of new samples in collaboration with all members
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Paris to develop an optimised data processing pipeline for detecting and measuring very faint surface brightness in Euclid mission images. The following four areas will be explored: the properties
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the job funded through the EU Research Framework Programme? Horizon Europe - ERC Is the Job related to staff position within a Research Infrastructure? No Offer Description All eukaryotic cell
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capable of approaching the real battery conditions while using a surface sensitive probe [2,3]. Nevertheless, XPS remains one of the most widely used techniques for investigating electrode/electrolyte
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conditions such as cancer, yet the underlying mechanisms remain poorly understood. Understanding how disruptions in these processes contribute to cancer development and cell fate decisions is a central
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motivated postdoctoral researcher to develop and apply imaging-based and computational approaches to identify predictive nuclear signatures of cell fate. The project combines experimental and quantitative
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to the electrochemical reaction being studied. - Optical simulations of plasmons in the thin films. - Design of a specific electrochemical cell to allow normal electrochemical operation under infrared irradiation, without
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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