0000000000077566

AUTHOR

M. D. Soriano

showing 5 related works from this author

Total oxidation of VOCs on mesoporous iron oxide catalysts: Soft chemistry route versus hard template method

2016

9 figures, 3 tables.-- Supplemantary information available

Materials scienceGeneral Chemical EngineeringCatalytic total oxidationOxalic acidInorganic chemistry02 engineering and technology010402 general chemistry01 natural sciencesIndustrial and Manufacturing EngineeringSoft chemistryCatalysisIron oxide catalysts: Soft chemistry synthesischemistry.chemical_compoundPropaneAdsorptionEnvironmental ChemistryNanocastingTotal oxidatioVOCsMesoporous supportSoft chemistry synthesis [Iron oxide catalysts]General Chemistry021001 nanoscience & nanotechnologyToluene oxidation0104 chemical sciencesMesoporous organosilicachemistry0210 nano-technologyMesoporous materialMesoporous α-Fe2O3Template method patternToluene
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Porous clays heterostructures as supports of iron oxide for environmental catalysis

2018

[EN] Porous Clays Heterostructures (PCH) from natural pillared clays (bentonite with a high proportion of montmorillonite) have been used as supports of iron oxide for two reactions of environmental interest: i) the elimination of toluene (a representative compound of one of the most toxic subsets of volatile organic compounds, aromatics) by total oxidation and ii) the selective oxidation of H2S to elemental sulfur. For both reactions these catalysts have resulted to be remarkably more efficient than similar catalysts prepared using conventional silica as a support. Thus, in the total oxidation of toluene it has been observed that the catalytic activity obtained using siliceous PCH is two o…

inorganic chemicalsGeneral Chemical EngineeringInorganic chemistryIron oxidechemistry.chemical_element02 engineering and technology010402 general chemistry01 natural sciencesIndustrial and Manufacturing EngineeringCatalysischemistry.chemical_compoundH2S to STotal and selective oxidationIron oxideEnvironmental ChemistrySulfatePorous Clays Heterostructures (PCH)ChemistryVOCGeneral Chemistry021001 nanoscience & nanotechnologySulfurToluene0104 chemical sciencesMontmorilloniteBentonite0210 nano-technologySelectivityTolueneChemical Engineering Journal
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Tungsten-titanium mixed oxide bronzes: Synthesis, characterization and catalytic behavior in methanol transformation

2019

[EN] Tungsten oxide bronze-based materials show extremely adaptive structural and compositional features that make them suitable for functional properties modulation. Herein we report the preparation of a series of Ti-containing tungsten oxide catalysts presenting a hexagonal tungsten bronze-type structure. The insertion of Ti4+ within the structure (likely in the octahedral framework of the hexagonal tungsten bronze) leads to an increase in the number of strong acid sites, and the disappearance of W5+ surface species found in the undoped tungsten oxide. With the aim of studying the acid-redox properties of the titled catalysts, the catalytic transformation of methanol has been carried out …

Titanium010405 organic chemistryChemistryProcess Chemistry and TechnologyMethanolMetallurgyOxidechemistry.chemical_elementDimethyl etherTungsten010402 general chemistry01 natural sciencesCatalysisTungsten0104 chemical sciencesCatalysisBronzeFormaldehydeMixed oxideTitanium
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Nickel oxide supported on porous clay heterostructures as selective catalysts for the oxidative dehydrogenation of ethane

2016

[EN] Porous clay heterostructures (PCH) have shown to be highly efficient supports for nickel oxide in the oxidative dehydrogenation of ethane. Thus NiO supported on silica with a PCH structure shows productivity towards ethylene three times higher than if NiO is supported on a conventional silica. This enhanced productivity is due to the increase in the catalytic activity and especially to the drastic increase in the selectivity to ethylene. Additionally, PCH silica partially modified with titanium in the columns (PCH-Ti) have also been synthesized and used as supports for NiO. An enhanced activity and selectivity to ethylene was found over NiO supported over PCH-Ti compared to the corresp…

EthyleneMaterials scienceCatalystsNickel oxideNon-blocking I/OInorganic chemistrychemistry.chemical_elementNickel oxide supported02 engineering and technology010402 general chemistry021001 nanoscience & nanotechnology01 natural sciencesCatalysis0104 chemical sciencesCatalysischemistry.chemical_compoundchemistryPorous Clay HeterostructuresDehydrogenationOxidative dehydrogenation of ethane0210 nano-technologyDispersion (chemistry)SelectivityTitaniumCatalysis Science & Technology
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NiO diluted in high surface area TiO2 as efficient catalysts for the oxidative dehydrogenation of ethane

2017

[EN] Catalysts consisting of NiO diluted in high surface area TiO2 can be as efficient in the oxidative dehydrogenation of ethane as the most selective NiO-promoted catalysts reported previously in the literature. By selecting the titania matrix and the NiO loading, yields to ethylene over 40% have been obtained. In the present article, three different titanium oxides (TiO2) have been employed as supports or diluters of nickel oxide and have been tested in the oxidative dehydrogenation of ethane to ethylene. All TiO2 used present anatase as the main crystalline phase and different surface areas of 11,55 and 85 m(2) g(-1). It has been observed that by selecting an appropriate nickel loading …

AnataseInorganic chemistrychemistry.chemical_element02 engineering and technology010402 general chemistry01 natural sciencesCatalysisCatalysisEthyleneSurface coverageNiO diluted in TiO2DehydrogenationOxidative dehydrogenation of ethaneTitanium oxideChemistryProcess Chemistry and TechnologyNickel oxideNon-blocking I/O021001 nanoscience & nanotechnologyNickel oxide catalysts0104 chemical sciencesTitanium oxideNickel(ODH)0210 nano-technologyTitanium
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