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- ISTITUTO ITALIANO DI TECNOLOGIA
- Politecnico di Milano
- ALMA MATER STUDIORUM - UNIVERSITA' DI BOLOGNA - - DIPARTIMENTO DI CHIMICA "GIACOMO CIAMICIAN"
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- CNR-Istituto dei Materiali per l'Elettronica ed il Magnetismo
- Finanziato nell’ambito del Piano Nazionale di Ripresa e Resilienza (PNRR) - Missione 4 “Istruzione e Ricerca” - Componente C2 “Dalla ricerca all’impresa” Investimento 1.1 “Fondo per il Programma Nazionale di Ricerca e Progetti di Rilevante Interesse Nazio
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to perform the interfacial reactions, water oxidation and proton reduction. The benefits of PHOTOGEN approach includes the exploitation of molecular sensitizers and catalysts, with tunable structure/property
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ALMA MATER STUDIORUM - UNIVERSITA' DI BOLOGNA - - DIPARTIMENTO DI CHIMICA "GIACOMO CIAMICIAN" | Italy | 16 days ago
the “switchable” solvents, able to change polarity through an additional trigger substance, with the heterogeneous and/or supported catalysts, with the photocatalysis. An additional target will be
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Finanziato nell’ambito del Piano Nazionale di Ripresa e Resilienza (PNRR) - Missione 4 “Istruzione e Ricerca” - Componente C2 “Dalla ricerca all’impresa” Investimento 1.1 “Fondo per il Programma Nazionale di Ricerca e Progetti di Rilevante Interesse Nazio | Italy | 21 days ago
simplify the manufacturing process using a straightforward hybrid printing CCM manufacturing technique coating of the catalyst layer on the membrane. The overall goal is to develop a deposition technique
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of dual function materials (DFM) coupling capture CO2 and as catalysts for fuel production is promising. The use of functionalized silica is promising and is expected to open the door to the development
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on silica and/or modified silica having specific functionalization and porosity, suitable for highly efficient CO2 capture and storage and to be used as catalysts support for high yield and selective fuel
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focused on the synthesis of nanostructured or molecular catalysts and/or electrocatalysts; morphological-structural characterization by (HR)TEM and SEM microscopy, and XRD; GC, HPLC and NMR analysis
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, for which reactions mono- or bi-metallic nanoclusters are promising catalysts. Using advanced experimental methods of surface and material science, e.g. scanning probe microscopy (STM/STS and AFM
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for potabilization of water. In particular, the comparative degradation ability of the different catalysts will be investigated by treating target solutions of pharmaceutical products. The project will consist of: i
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characterization of new types of photocatalysts, based on metal organic frameworks (MOFs) and metal halide perovskite (MHP) materials as efficient (photo)catalysts for CO2 reduction, focusing on solvent-free
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insight into the redox activity and establish structure-performance correlations for catalyst optimization. ESSENTIAL REQUIREMENTS ·A PhD in chemistry, materials science, chemical engineering and similar