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performance characterization under variable flow conditions. Ultimately, the potential of this self-adaptive concept will be assessed with a view to its possible integration into real-world energy systems
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stacking, both high performance and (very) high density can be achieved by this concept. The mission will be to explore, understand and develop the fundamental physics of device operation. This will require
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selectivity is the first important barrier to overcome in order to perform quantitative analyses for each pollutant and avoid ionic interference between the different sensors used in the project. Sensor
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this context, deep eutectic solvents (DES) appear to be a more sustainable alternative: low volatility, increased stability, high flash points, and promising performance. However, their use is still emerging and
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and operando gas-assisted Environmental Transmission Electron Microscopy experiments to the investigation of gallium doped zeolites under realistic conditions of functioning, in the framework of a
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materials, heterogeneous catalysis, and the study of structure–property–performance relationships. The candidate will benefit from a stimulating research environment at the crossroads of material synthesis
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and a lifetime compatible with operation at 1450°C (≈2700F) for long periods for internal engine components. The main objective of this thesis project carried out at IRCER is to optimize the PIP
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and Electronic Design Design and build the MDAL, its power electronics, instrumentation, and the valve control system. Task 3: Component Characterization Perform “decoupled” characterization
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are enabling new applications ranging from fundamental tests of physics to relativistic geodesy and improved timekeeping. However, their performance is presently limited by the need for ultra-stable reference
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take part in the operation of a unique new instrument designed to generate and spectroscopically probe charged hydrogenated cages, in an effort to determine whether they are responsible for some of the