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RESEARCH PRODUCT
(Ag)Pd-Fe3O4 Nanocomposites as Novel Catalysts for Methane Partial Oxidation at Low Temperature
Blanca Martínez-navarroRuth SanchisBenjamín SolsonaEsther Asedegbega-nietoFrancisco Ivars-barcelóFrancisco Ivars-barcelósubject
Materials scienceoxidation catalysisXRDGeneral Chemical EngineeringNanoparticleAgHeterogeneous catalysisArticleCatalysisFe<sub>3</sub>O<sub>4</sub>EDSReaction ratelcsh:Chemistrymagnetite iron oxidePdGeneral Materials SciencesilverPartial oxidationBimetallic stripRamanTG in airlow-temperature activityNanocompositenanocompositeelectron microscopymethaneFe3O4palladiumTG in hydrogenThermogravimetryheterogeneous catalysislcsh:QD1-999formaldehydeNuclear chemistrydescription
Nanostructured composite materials based on noble mono-(Pd) or bi-metallic (Ag/Pd) particles supported on mixed iron oxides (II/III) with bulk magnetite structure (Fe3O4) have been developed in order to assess their potential for heterogeneous catalysis applications in methane partial oxidation. Advancing the direct transformation of methane into value-added chemicals is consensually accepted as the key to ensuring sustainable development in the forthcoming future. On the one hand, nanosized Fe3O4 particles with spherical morphology were synthesized by an aqueous-based reflux method employing different Fe (II)/Fe (III) molar ratios (2 or 4) and reflux temperatures (80, 95 or 110 °
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2020-05-01 | Nanomaterials |