Search results for " Dehydrogenation"

showing 3 items of 13 documents

Oxidative dehydrogenation of ethane: A study over the structure and robustness of Ni–W–O catalysts

2014

[EN] The robustness of one selected Ni-W-O catalyst has been studied in the oxidative dehydrogenation of ethane. This catalyst initially deactivates for the first 10 h online decreasing 15% of its catalytic activity compared to its initial stable catalytic activity. However from 10 to 60 h online the catalytic activity keeps almost stable. On the other hand, it has been shown that the Ni-W-O catalyst cannot tolerate an oxygen-free atmosphere (C-2 and He) as nickel oxide is transformed into metallic nickel. Methane and hydrogen as well as abundant coke were formed on the surface of the catalyst in these O-free conditions. However a re-calcination in air leads to the removal of coke, the cata…

inorganic chemicalsEthyleneHydrogenGeneral Chemical EngineeringCatalyst supportInorganic chemistryEnergy Engineering and Power Technologychemistry.chemical_elementCatalysisMethaneCatalysisEthylenechemistry.chemical_compoundDehydrogenationNickel tungstenOxidative dehydrogenation of ethaneOxide catalystsEthaneChemistryorganic chemicalsNickel oxideCokeFuel TechnologyNi-W-OHydrogenOxidative dehydrogenationFuel Processing Technology
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Optimized bath for electroless deposition of palladium on amorphous alumina membranes

2006

A new bath for the electroless deposition of palladium on anodic alumina (AA) membranes is proposed. It was found that the optimal conditions for the uniform deposition of palladium, with minimal damage to the AA membranes, were under conditions of pH 8.4 and plating times shorter than 30 min. The deposited Pd layer was detected by X-ray diffraction (XRD) and energy dispersive X-ray (EDX) analysis. The morphology of the AA membrane before and after plating was examined by scanning electron microscopy (SEM). EDX analysis revealed that palladium was deposited only on the surfaces of the membrane and Sn ions, coming from the sensitizing bath, were incorporated into the palladium layer. EDTA in…

inorganic chemicalsMaterials scienceScanning electron microscopeInorganic chemistrychemistry.chemical_elementSurfaces and InterfacesGeneral ChemistryCondensed Matter PhysicsSurfaces Coatings and FilmsAmorphous solidMembranechemistryAluminiumPlatingMaterials ChemistryFourier transform infrared spectroscopyElectroless deposition Palladium Dehydrogenation Anodic alumina membranesLayer (electronics)PalladiumSurface and Coatings Technology
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Fractal-like Hierarchical CuO Nano/Microstructures for Large-Surface-to-Volume-Ratio Dip Catalysts

2022

Dip catalysts are attracting interest in both academia and industry for catalyzing important chemical reactions. These provide excellent stability, better recoverability, recyclability, and easy scale-up. Using the unique microstructures of leaf skeletons, we present a fractal-like hierarchical surface that can be used as a versatile and efficient dip catalyst. Copper oxide microcactuses with nanoscalar features were fabricated onto the Bauhinia racemosa leaf skeletons via a combination of physical vapor deposition, electroplating, and chemical oxidation methods. The coated leaf skeletons have a very high surface area, and the three-dimensional (3D) morphology allows the reactants to encoun…

mikrorakenteetalcohol dehydrogenationkatalyytitnanorakenteetbioinspiration216 Materials engineering221 Nanotechnologyleaf skeletondip catalystGeneral Materials Sciencekupari217 Medical engineeringcopper oxide
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