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-The planned research activity is part of the FIS 2 Project "HYDRAE: Development and characterization of high entropy oxides for hydrogen production" and aims to synthesize innovative materials known as high
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local dynamic modifications induced by laser at different time and energy scales in thin films of metal oxides (transparent conductive oxides). The idea is to provide energy with precise spatial and
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, etc.). The project will be carried out within the Oxitronics group at Laboratoire Albert Fert (CNRS, Thales, Université Paris-Saclay), a leading laboratory in spintronics and oxide electronics. The lab
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Application deadline: 31/08/2026 Research theme: Nuclear Materials Hoe to apply: https://uom.link/pgr-apply-2425 UK only This 4-year PhD project is fully funded by the Nuclear Decommissioning
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sustainable fuel production and long-term decarbonization of the chemical industry. In recent years, catalysts based on oxide–metal and oxide–intermetallic interfaces have emerged as particularly promising
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photocatalytic systems based on titanium and iron metal oxides, modified with ligno-humic compounds and related carbonaceous derivatives extracted from sewage sludge. Where to apply Website https
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Chemistry (LCC, http://www.lcc-toulouse.fr/ ), one of the leading French chemistry institutes. We have at our disposal state-of-the-art technical and analytical platforms for the support of the project (e.g
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reactions relevant to fuel cell systems such as alcohol oxidation and oxygen reduction. HYBNA seeks to develop new, sustainable electrocatalytic interfaces targeting the Oxygen Reduction Reaction and Ethanol
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analytical data in cellar contexts (pH, SO2, phenolic content) combined with rapid analytical fingerprinting methods (voltammetry, spectroscopy, others). Resistance to oxidative, thermal and photo-oxidative
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. The activities to be developed within the scope of this fellowship include the electrochemical oxidation of the PFAS present in the foamate, using boron-doped diamond electrodes. Legislation and regulations: Law