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validation of a CHONSP system for high-temperature combustion would have a major impact on the combustion community and industry. Objectives: During the first part of the thesis, the student will develop
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. Today, the most challenging endeavor in this regard is to monitor the evolution of these interfaces during device operation, i.e. operando. Hence, we aim to develop a new strategy for coupled probes
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and Photocatalytic applications) funded by CNRS. The doctoral student will develop theoretical models and participate in spectroscopy experiments in France and Belgium under the responsibility of two
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. It is part of a coherent and ambitious site policy jointly developed with other players in the research, higher education and the socio-economic world. The doctoral researcher will conduct his research
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the design stage. The main objective here is to develop approaches in which molecular chemistry (LCC) and nanotechnology (LAAS-CNRS) are combined to produce micro/nano-scale architectures in which
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Laser Ionization for Applications in the Environment and Health) aims to develop instrumentation based on the coupling of laser ionization to mass separation in order to quantify, separate and purify
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use the scientific platforms of the Grenoble Institute of Molecular Chemistry. https://dcm.univ-grenoble-alpes.fr/ Project Description: The project aims to develop efficient and selective catalysts
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emerged as a promising route for recycling waste plastics, as it enables them to be converted into value-added products and is applicable to a wide range of polymers. To develop this recycling route
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, and can only be done by combining approaches from different disciplines (lithic technology, geometric morphometry, deep learning). Candidate's tasks The candidate will first develop a suitable
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at Nantes University. It has a strong international reputation in applied materials modelling and nanocarbon materials. Nantes is a lively and active city, on the edge of Brittany, western France (2h train