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to develop chiral metal nanoclusters, understand their chirality at the atomic level through a combination of advanced spectroscopic techniques and theoretical simulations, and apply them to relevant processes
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for manufacturing chiral metal nanoclusters of different sizes, metal compositions and degrees of chirality (intrinsic and induced). The main objective of the work is to adjust the chiral properties in order to
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the majority of polluting ionic species, as well as toxic heavy metal ions (Pb2+). The multiplexed detection system proposed for the study is based on the cointegration of several sensors that are selectively
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formation machinery (Grey, Baudat, de Massy 2018). Interestingly, in organisms, where PRDM9 is absent, or in mutant mice for PRDM9, DSBs still form, but they localize at functional genomic elements (FE) such
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bodies moving in a fluid or fluids being transported in ducts and pipes. There is significant pressure to reduce transport-related emissions, of which friction drag is a major constituent. On the other
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to develop chiral metal nanoclusters, understand their chirality at the atomic level through a combination of advanced spectroscopic techniques and theoretical simulations, and apply them to relevant processes
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through weekly meetings between the doctoral candidate and the thesis supervisors. These meetings will occasionally include other team members (postdoctoral researchers, Master's students). Bioinformatic
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for manufacturing chiral metal nanoclusters of different sizes, metal compositions and degrees of chirality (intrinsic and induced). The main objective is to use the nanoclusters designed both as multiphoton imaging
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cell using redox-active compounds. The objective will be to identify suitable electrolytes in terms of potential, solubility, and stability. The postdoctoral researcher will study the physicochemical
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which currently consists of 5 permanent researchers, 2 PhD students, 2 postdoctoral researchers. The PhD studies will be performed in the experimental rooms of the propulsion team at LPP in Palaiseau