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Mesoporous CuO/MgO synthesized by a homogeneous-hydrothermal method and its catalytic performance for the ethynylation reaction of formaldehyde
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Citations
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References
2018
Year
EngineeringNanoheterogeneous CatalysisChemistryEthynylation ReactionChemical EngineeringMesoporous Cuo/mgoElectron MicroscopyPhotocatalysisHydrothermal Homogeneous PrecipitationMaterials ScienceCatalytic ApplicationCatalytic MaterialCatalyst RecyclingCatalysisCatalytic SynthesisMesoporous Cuo/mgo CatalystNanomaterialsHydrothermal ProcessingCatalyst PreparationHomogeneous-hydrothermal Method
Mesoporous CuO/MgO catalyst was synthesized by hydrothermal homogeneous precipitation using urea as precipitating reagent. The CuO/MgO catalyst was characterized by BET-N2, X-ray diffraction pattern (XRD), scanning electron microscopy (SEM), transition electron microscopy (TEM), Raman spectra and thermogravimetric analysis (TG). The results indicate that CuO/MgO catalyst possesses extremely fine dispersion of Cu nanoparticles (NPs) with a high specific surface area of 232 m2/g and pore sizes of 6.5 nm. The mesoporous CuO/MgO exhibits excellent catalytic activity for the formaldehyde reaction of acetylene.
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