0000000000276027

AUTHOR

Adrián García

0000-0002-9530-1230

showing 5 related works from this author

Low temperature conversion of levulinic acid into γ-valerolactone using Zn to generate hydrogen from water and nickel catalysts supported on sepiolite

2020

1 scheme, 2 tables, 7 figures.-- Supplementary material available.

HydrogenMetal-catalystsFormic acidGeneral Chemical EngineeringSepioliteInorganic chemistrychemistry.chemical_elementGeneral ChemistryCatalysischemistry.chemical_compoundNickelchemistryFormic-acidLevulinic acidWater splittingBiomassHydrogen productionRSC Advances
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Supported iridium catalysts for the total oxidation of short chain alkanes and their mixtures: Influence of the support

2021

13 figures, 3 tables.-- Supplementary information available.-- © 2020. This manuscript version is made available under the CC-BY-NC-ND 4.0 license http://creativecommons.org/licenses/by-nc-nd/4.0/

SupportsGeneral Chemical EngineeringTotal oxidationchemistry.chemical_element02 engineering and technologyIridium oxide010402 general chemistryIridium01 natural sciencesIndustrial and Manufacturing EngineeringCatalysislaw.inventionsymbols.namesakeAdsorptionX-ray photoelectron spectroscopylawAlkanesEnvironmental ChemistryCalcinationIridiumVOCsGeneral Chemistry021001 nanoscience & nanotechnology0104 chemical scienceschemistryChemical engineeringsymbols0210 nano-technologyRaman spectroscopy
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Gamma-valerolactone from levulinic acid and its esters: Substrate and reaction media determine the optimal catalyst

2021

13 figures, 7 tables.-- © 2021. This manuscript version is made available under the CC-BY-NC-ND 4.0 license https://creativecommons.org/licenses/by-nc-nd/4.0

HydrogenMethyl levulinateProcess Chemistry and TechnologySepioliteSepioliteAluminachemistry.chemical_elementSubstrate (chemistry)Y-valerolactoneCatalysisRutheniumCatalysisRutheniumNickelchemistry.chemical_compoundchemistryLevulinic acidNickelLevulinic acidOrganic chemistryReactivity (chemistry)Ethyl levulinate
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The promoter effect of Nb species on the catalytic performance of Ir-based catalysts for VOCs total oxidation

2022

12 figures, 2 tables.-- Supporting information available.

TitaniaNiobiumProcess Chemistry and TechnologyTotal oxidationAlkaneVOCsChemical Engineering (miscellaneous)IridiumPollutionWaste Management and DisposalJournal of Environmental Chemical Engineering
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Highly Active Co3O4-Based Catalysts for Total Oxidation of Light C1–C3 Alkanes Prepared by a Simple Soft Chemistry Method: Effect of the Heat-T…

2021

9 figures, 2 tables.

inorganic chemicalsTechnologyInorganic chemistryTotal oxidationcobalt oxidechemistry.chemical_elementalkane oxidationpropaneHeterogeneous catalysissurface oxygen vacanciesMethaneArticleCatalysischemistry.chemical_compoundPropaneAlkane oxidationSurface oxygen vacanciesPropanetotal oxidationvolatile organic compoundsGeneral Materials ScienceReactivity (chemistry)Volatile organic compoundsCobalt oxideAlkanechemistry.chemical_classificationHeterogeneous catalysisEthaneMicroscopyQC120-168.85methaneTQH201-278.5ethaneEngineering (General). Civil engineering (General)TK1-9971heterogeneous catalysischemistryDescriptive and experimental mechanicsMixed oxideElectrical engineering. Electronics. Nuclear engineeringTA1-2040cobalt oxide; total oxidation; alkane oxidation; heterogeneous catalysis; volatile organic compounds; propane; ethane; methane; surface oxygen vacanciesCobaltMethaneMaterials; Volume 14; Issue 23; Pages: 7120
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