Morgan P. Le Dû
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View article: Thermoelectric Performance and Morphological Stability of Thin Titania: Carbon Black Hybrid Films Against Humidity and Light Irradiation
Thermoelectric Performance and Morphological Stability of Thin Titania: Carbon Black Hybrid Films Against Humidity and Light Irradiation Open
Thermoelectric titania thin films are of interest for energy generation and sensor applications. To be usable in practice, they need to be stable against atmospheric conditions. Nanostructured titania:carbon black hybrid thin films are inv…
View article: Thermoelectric Performance and Morphological Stability of Thin Titania: Carbon Black Hybrid Films Against Humidity and Light Irradiation
Thermoelectric Performance and Morphological Stability of Thin Titania: Carbon Black Hybrid Films Against Humidity and Light Irradiation Open
Thermoelectric titania thin films are of interest for energy generation and sensor applications. To be usable in practice, they need to be stable against atmospheric conditions. Nanostructured titania:carbon black hybrid thin films are inv…
View article: Local crystallization inside the polymer electrolyte for lithium metal batteries observed by operando nanofocus WAXS
Local crystallization inside the polymer electrolyte for lithium metal batteries observed by operando nanofocus WAXS Open
View article: Platinum‐Doped Carbon Nitride‐Loaded Poly( <i>N</i> ‐Isopropylacrylamide) Hydrogel Thin Films for Green Hydrogen Production Systems: Morphological Study for Higher Efficiency
Platinum‐Doped Carbon Nitride‐Loaded Poly( <i>N</i> ‐Isopropylacrylamide) Hydrogel Thin Films for Green Hydrogen Production Systems: Morphological Study for Higher Efficiency Open
Photocatalytic water splitting enables the generation of green hydrogen (H 2 ). In this framework, water and sunlight are the sustainable sources. Photocatalyst‐loaded hydrogel materials have already shown their potential as a water storag…
View article: Comparison of the Swelling Behavior of Poly(<i>N</i>-Isopropylacrylamide) and Poly(<i>N</i>-Vinylisobutyramide) Thin Films under Water Vapor Exposure
Comparison of the Swelling Behavior of Poly(<i>N</i>-Isopropylacrylamide) and Poly(<i>N</i>-Vinylisobutyramide) Thin Films under Water Vapor Exposure Open
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