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areas to work on an ERC-funded proof-of-concept project. The goal is to develop a miniature, quantitative greenhouse gas analyzer based on our successful fiber Fabry-Perot microcavity technology. The
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-based gas-mixtures. The aim is to measure the selectivity and fraction recovered of hydrogen-based and carbon-based gas mixtures. The project will be in collaboration with Horiba S.A. The recruited
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an EU programme Is the Job related to staff position within a Research Infrastructure? No Offer Description Segmentation and tracking of oil drop deformations in lymph nodes The aim of this project is to
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-Petroleum Materials" project, coordinated by Prof. Daniel Taton of the LCPO in Bordeaux. This project will be carried out in close collaboration with Dr. Gilles Guichard of the CBMM Laboratory in Bordeaux
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sensitivity of the transduction mechanisms to various physical parameters (temperature, light, bending of the substrate). Last, we will design and test a flexible GaN MEMS gas sensor. Test of the gas sensor
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reactive molecular dynamics (MD) simulations to understand the reaction mechanisms at the atomic scale involved in the combustion of Aluminum and Iron nanoparticles. Aluminum burns in the gas phase while
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MBE cluster for topological materials, consisting of a chamber for high purity III-V materials (As, Al, Ga, In, Sb, Bi, …) coupled to a second superconducting/ferromagnetic metal chamber (Al, Nb, … / Fe
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. Future challenges for CC-IN2P3 include data processing for the future High Luminosity LHC project at CERN, the new SPIRAL 2 particle gas pedal at GANIL, the BELLE II detector in Japan, as well as promising
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-polymers/ . The team designs biosourced polymers based on polyaddition/polycondensation routes. The main bio-resources studied are : - vegetable oils - oligosaccharides and biophenols Requirements Research
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membrane processes (effluent treatment, gas separation, biotechnologies related to food science and health….). Since its inception in 2010, Polymerization-Induced Self-Assembly (PISA) has revolutionized