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to validate the analysis protocols. Subsequently, the analysis will be extended to photocatalysts used within the IMPACT-H2 framework. See the call for further details. Where to apply Website https
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employment contract within the framework of a Line of Research: R&D line: Materials for Photocatalysts https://www.upv.es/entidades/SRH/conypi/A1274288.pdf Where to apply Website https://sede.upv.es
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process for an indefinite employment contract within the framework of a Line of Research: R&D line: Materials for photocatalysts https://www.upv.es/entidades/SRH/conypi/A1274749.pdf Where to apply Website
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selection process for an indefinite employment contract within the framework of a Line of Research: R&D line: Materials for Photocatalysts https://www.upv.es/entidades/SRH/conypi/A1274359.pdf Where to apply
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spectroscopy techniques and support the rational design of more efficient photocatalysts for sustainable chemical transformations. Where to apply Website https://emploi.cnrs.fr/Offres/Doctorant/UMR8181-HELTIS
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selection process for an indefinite employment contract within the framework of a Line of Research: R&D line: materials for photocatalysts https://www.upv.es/entidades/SRH/conypi/A1274281.pdf Where to apply
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to join Professor Ludmilla Steier’s research group. These posts form part of an ambitious, EPSRC-funded ERC Starting Grant project (Photocat3.0) focusing on Thin-Film Sulphide Photocatalysts
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support to both prevent deactivation and ensure high product selectivity. To achieve this, the project explores mesostructured Cu/CeO2-TiO₂ photocatalysts, enabling CO2 adsorption/activation, improved
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substrates under mild conditions.[1] However, traditional photocatalysts remain limited by the reducing power of their excited states (> –2 V vs. SCE). The ANR CASPI project aims to implement the ConPET
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of efficient and low–environmental-impact photocatalysts, and the systematic investigation of key operational parameters (light source, solvent, residence time, and concentration) to maximize efficiency and