0000000000000254

AUTHOR

Victoria Puchol

showing 6 related works from this author

Incorporation of Silica Nanospherical Particles into Epoxy-Amine Crosslinked Materials

2008

Composites of silica nanospheres coated with crosslinked epoxy–amine were synthesised and examined by 29Si-magic-angle-spinning nuclear magnetic resonance spectroscopy, thermogravimetric analysis, Fourier transform infrared spectroscopy and scanning electron microscopy. The most representative fact is that epoxy-modified nanospheres lost less weight at high temperatures. At temperatures greater than 300°C the loss of weight for epoxy-modified nanospheres was rather lower than for unmodified nanospheres. This helped them to retain their structures, as the loss of weight can have adverse effects on network defects, due to the loss of crosslinks by unit of volume.

Thermogravimetric analysisMaterials sciencePolymers and PlasticsEpoxy amineChemical engineeringScanning electron microscopePolymer chemistryMaterials ChemistryCeramics and CompositesNuclear magnetic resonance spectroscopyFourier transform infrared spectroscopyPolymers and Polymer Composites
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Incorporation of Silica Nanospherical Particles in Epoxy–Amine Crosslinked Materials II. Dynamic Mechanical Measurements of Epoxy Matrix-Silica Nanoc…

2009

The mechanical strengths of epoxy composites reinforced with silica nanospheres, unfunctionalised or functionalised with either amine or epoxy groups, increase up to a proportion of 5 wt.% of filler, as reflected in a study of the shear storage modulus carried out in dynamic mechanical analysis. This improvement is observed in both glassy and rubbery states, moderately affecting the glass transition temperature of the material. From this percentage of strengthening substance the mechanical properties begin to deteriorate, but keeping (up to 10 wt.% of strengthening material), a greater storage modulus in shear than that of the pristine epoxy resin. A trend can be discerned as the percentag…

NanocompositeMaterials sciencePolymers and PlasticsDynamic mechanical analysisEpoxyEpoxy matrixengineering.materialShear (sheet metal)Filler (materials)visual_artMaterials ChemistryCeramics and Compositesengineeringvisual_art.visual_art_mediumAmine gas treatingComposite materialGlass transitionPolymers and Polymer Composites
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Low-cost materials for boron adsorption from water

2012

[EN] Knowing the affinity of boron aqueous species for cis-diol organic groups, five different hybrid materials have been prepared by anchoring glucose groups onto the surface of silica matrices with a different surface topology: UVM-7 bimodal mesoporous silica, UVM-11 unimodal non-templated mesoporous silica, commercial silica fume and two silica xerogels with pores within the mesoporous range (13-50 nm). After optimizing the experimental conditions, a comparison was made of the boron adsorption capacities in water. The relationship of the structural and functionalization parameters is discussed and the importance of the surface topology in the final adsorption behaviour is revealed. Hence…

INGENIERIA DE LA CONSTRUCCIONMaterials scienceSilica fumeInorganic chemistrychemistry.chemical_elementAdsorptionQUIMICA ORGANICAMaterials ChemistryReverse-OsmosisNanoparticulated SilicasBoronChemical ControlAzomethine-H MethodAqueous-SolutionQUIMICA INORGANICAGeneral ChemistryMesoporous silicaMesoporous organosilicachemistryMesoporous OxidesSurface-PropertiesSurface modificationMesoporous materialHybrid materialRemovalPorosityIon-Exchange
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Dynamic Mechanical Measurements of Epoxy Matrix-Silica Nanocomposites II

2009

The mechanical properties of epoxy-silica nanocomposites have been studied; the silica nanosphere fillers used were un-functionalised, functionalised with amine, with epoxy, or a mixture of both kinds. Dynamic mechanical analysis measurements revealed an increase in the shear storage modulus, for all samples with a filler content of 3–5%. Improvements were observed in the glassy and rubbery states, without affecting the glass transition temperature of the materials. Above these strengthening percentages, the mechanical properties began to deteriorate, but in all cases they remained superior to those of the pristine epoxy resin. For low strengthening percentages, samples reinforced with bot…

NanocompositeMaterials sciencePolymers and PlasticsEpoxyDynamic mechanical analysisengineering.materialFlow stressShear (sheet metal)visual_artFiller (materials)Materials ChemistryCeramics and CompositesCohesion (geology)visual_art.visual_art_mediumengineeringComposite materialGlass transitionPolymers and Polymer Composites
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Biomimetic chitosan-mediated synthesis in heterogeneous phase of bulk and mesoporous silica nanoparticles

2009

Both bulk and mesoporous silica nanoparticles can be obtained in the form of granular aggregates using chitosan flakes as additive under very soft biomimetic reaction conditions. Puchol Estors, Victoria, Victoria.Puchol@uv.es ; El Haskouri, Jamal, Jamal.Haskouri@uv.es ; Latorre Saborit, Julio, Julio.Latorre@uv.es ; Beltran Porter, Aurelio, Aurelio.Beltran@uv.es ; Beltran Porter, Daniel, Daniel.Beltran@uv.es ; Amoros del Toro, Pedro Jose, Pedro.Amoros@uv.es

Materials scienceSilicon dioxideUNESCO::QUÍMICANanoparticleNanotechnologyBulk:QUÍMICA [UNESCO]CatalysisChitosanchemistry.chemical_compoundMicroscopy Electron TransmissionBiomimeticsPhase (matter)Materials ChemistryReaction conditionsChitosanUNESCO::QUÍMICA::Química inorgánicaMesoporus silicaMetals and AlloysGeneral ChemistryMesoporous silica:QUÍMICA::Química inorgánica [UNESCO]Silicon DioxideSurfaces Coatings and FilmsElectronic Optical and Magnetic MaterialschemistryMicroscopy Electron ScanningCeramics and CompositesNanoparticlesBiomimeticBulk ; Mesoporus silica ; Biomimetic ; Nanoparticles ; ChitosanChemical Communications
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Thalassiosira pseudonana diatom as biotemplate to produce a macroporous ordered carbon-rich material

2008

Abstract Ordered macroporous–mesoporous carbonaceous materials were produced as a direct replica of the Thalassiosira pseudonana diatom by infiltration of the skeleton with furfuryl alcohol. The final carbon-rich material preserves the macropores of the diatom acting as bio-template and new hierarchical macro–mesopores appears as the silica is eliminated through chemical etching. The final solid can be described as an organized array of carbon macrotubes. In order to understand the progressive silica etching and the subsequent effect on the final carbon material, different etching reagents have been used. Moreover, the similar pore topology of T. pseudonana and the well known MCM-41 mesopor…

Materials scienceMacroporebiologyThalassiosira pseudonanaGeneral ChemistryMesoporous silicabiology.organism_classificationIsotropic etchingFurfuryl alcoholchemistry.chemical_compoundDiatomChemical engineeringchemistryReagentGeneral Materials SciencePorous mediumCarbon
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