Examinando por Autor "Pando, Concepción"
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Ítem Deposition of Ni nanoparticles onto porous supports using supercritical CO2: effect of the precursor and reduction methodology(The Royal Society, 2015-12-28) Morere, Jacobo; Royuela, Sergio; Asensio, Guillermo; Palomino, Pablo; Enciso, Eduardo; Pando, Concepción; Cabañas, JacoboThe deposition of Ni nanoparticles into porous supports is very important in catalysis. In this paper, we explore the use of supercritical CO2 (scCO2) as a green solvent to deposit Ni nanoparticles on mesoporous SiO2 SBA-15 and a carbon xerogel. The good transport properties of scCO2 allowed the efficient penetration of metal precursors dissolved in scCO2 within the pores of the support without damaging its structure. Nickel hexafluoroacetylacetonate hydrate, nickel acetylacetonate, bis(cyclopentadienyl)nickel, Ni(NO3)2⋅6H2O and NiCl2⋅6H2O were tried as precursors. Different methodologies were used: impregnation in scCO2 and reduction in H2/N2 at 400°C and low pressure, reactive deposition using H2 at 200–250°C in scCO2 and reactive deposition using ethanol at 150–200°C in scCO2. The effect of precursor and methodology on the nickel particle size and the material homogeneity (on the different substrates) was analysed. This technology offers many opportunities in the preparation of metal-nanostructured materialsÍtem Deposition of Pd into mesoporous silica SBA-15 using supercritical carbon dioxide(Elsevier, 2011-03) Morere, Jacobo; Tenorio, María José; Torralvo, María José; Pando, Concepción; Rodríguez Renuncio, Juan Antonio; Cabañas, AlbertinaÍtem Role of excess molar enthalpies in supercritical antisolvent micronizations using dimethylsulfoxide as the polar solvent(Elsevier, 2011-12) Zahran, Fouad; Morere, Jacobo; Cabañas, Albertina; Rodríguez Renuncio, Juan Antonio; Pando, ConcepciónÍtem Solubility of two metal-organic ruthenium precursors in supercritical CO2 and their application in supercritical fluid technology(Elsevier, 2012-03) Morere, Jacobo; Tenorio, María José; Pando, Concepción; Rodríguez Renuncio, Juan Antonio; Cabañas, AlbertinaÍtem Supercritical fluid deposition of Ru nanoparticles onto SiO2 SBA-15 as a sustainable method to prepare selective hydrogenation catalysts(Royal Society of Chemistry, 2015) Morere, Jacobo; Torralvo, María José; Pando, Concepción; Rodríguez Renuncio, Juan Antonio; Cabañas, AlbertinaRu nanoparticles were successfully deposited onto mesoporous SiO2 SBA-15 using supercritical CO2 (scCO2). The use of scCO2 favoured the metal dispersion and Ru nanoparticles uniformly distributed throughout the support were obtained. Different precursors and methodologies were employed: impregnation with Ru(tmhd)2(COD) in scCO2 at 80 °C and 13.5 and 19.3 MPa and further reduction in H2/N2 at 400 °C at low pressure, reactive deposition of Ru(tmhd)2(COD) with H2 in scCO2 at 150 °C and reactive deposition of RuCl3·xH2O with ethanol in scCO2 at 150 and 200 °C. The size of the particles was limited in one dimension by the pore size of the support. The metal loading varied with the methodology and experimental conditions from 0.9 to 7.4% Ru mol. These materials exhibited remarkable catalytic activity. The Ru/SiO2 SBA-15 materials prepared by reactive deposition with H2 in scCO2 were selective catalysts for the hydrogenation reactions of benzene and limonene, allowing the production of partly hydrogenated hydrocarbons that may serve as building blocks for more complex chemicals. scCO2 is shown to be a green solvent that allows the preparation of efficient heterogeneous catalysts to design sustainable processes. Furthermore, in the hydrogenation of limonene, scCO2 was also used as the solventÍtem Supercritical fluid preparation of Pt, Ru and Ni/graphenenanocomposites and their application as selective catalysts in thepartial hydrogenation of limonene(Elsevier, 2017-02) Morere, Jacobo; Sánchez-Miguel, Elizabeth; Tenorio, María José; Pando, Concepción; Cabañas, AlbertinaThe development of new materials and methods to prepare selective hydrogenation catalysts is essential from both environmental and economic reasons due to their industrial applications. In this context, the use of reduced graphene oxide (rGO) as a metal-free catalyst and catalytic support is explored. Thanks to the penetrating and exfoliating ability of supercritical CO2 (scCO2), Pt, Ru and Ni nanoparticles were homogeneously deposited on rGO through a sustainable method. Particle size for the different metal/rGO varied from 2 to 15 nm depending on the metal, methodology and metal loading (1–7% wt.). The Pt/rGO and Ru/rGO materials prepared in scCO2 were used as catalysts in the hydrogenation of limonene. The reaction was performed in CO2 at supercritical conditions. All the metal/rGO catalysts showed high activities and selectivities of ca. 90% to the partially hydrogenated form, p-menthene, that kept constant with reaction time. The Ru/rGO catalyst was reused up to 4 times with minor loss of activity and constant selectivity. The high activity and selectivity may be related to the 2D open structure of the support, which favours adsorption of reactants and desorption of intermediate products