Facultad Regional Córdoba

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    Novel preparation of titania-modified CMK-3 nanostructured material as support for Ir catalyst applied in hydrodenitrogenation of indole.
    (Univesidsad Tecnológica Nacional., 2017) Ledesma , Brenda Cecilia; Juárez , Juliana María; Vallés , Verónica Alejandra; Anunziata , Oscar Alfredo; Beltramone, Andrea Raquel
    Abstract Iridium catalyst was prepared using a novel tita nium oxide-CMK-3 support synthesized as a replica of Ti SBA-15. The catalyst was applied in the hydrodenitrogena tion of indole. The activity was compared with an iridium catalyst supported over a grafted titanium-CMK-3. Struc tural and textural characterization of the catalysts was per formed by means of N2 adsorption, XRD, UV–Vis–DRS, Raman spectroscopy, XPS, TEM and H2 Chemisorption. Ir Ti-CMK-3 was the most active catalyst for the hydro denitrogenation reaction at mild conditions. Titanium oxide contained in carbon ordered mesoporous CMK-3 promotes a very good anchorage of iridium metallic clusters in the carbon framework reaching high active site distribution and more stable nanoclusters.
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    Synthesis of SBA-1, SBA-3 and SBA-7 mesoporous materials. Study of the effect of time and temperature.
    (Univesidsad Tecnológica Nacional., 2018) Martínez , María Laura; Ponte , María Virginia; Falcón, Horacio; Beltramone , Andrea Raquel; Anunziata , Oscar Alfredo; Anunziata , Oscar Alfredo; Ponte , María Virginia
    In recent years, physicists, chemists and engineers have focused their research on the design of new functional materials. In the synthesis and control of materials in nanometer dimensions, the aim is currently directed towards the development of systems and devices that take advantage of chemical properties and physical principles, where their causes lie in the nanometer scale. Although there are numerous investigations about the synthesis of mesoporous materials from inorganic silicon salt, for example the synthesis of SBA-3. Ting et al [1] studied the synthesis of SBA-1; they obtained mesoporous SBA-1 with cubic structures, with a high porous system, by utilizing agents’ routers short chain structure such as the dodecyltrimethyl ammonium chloride. Recent research also showed that the formation of mesophases is affected by the presence of the counter ions and templates or surfactants can adopt a mesophase or other phases. So, Che et al. [2] found a phase shift 2D-hexagonal cubes from P6mm to Pm3n. We have published results for synthesis of SBA-3 with silica gel as silica source; we have found that the formation of mesophase is function of NaOH concentration in the dissolutions of silica gel. The influence of reaction temperature, time and NaOH concentration was investigated. During studies for the best synthesis conditions for synthesis of SBA-3, we also obtained SBA-1 and SBA-7 mesoporous materials.
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    Hydrogenation of tetralin over Ir-containing mesoporous catalysts.
    (Univesidsad Tecnológica Nacional, 2012) Ponte, María; Valles, Verónica; Anunziata, Oscar; Beltramone, Andrea
    In this work we study the catalytic properties of 1 wt% Ir-containing mesoporous materials in the hydrogenation of tetralin to decalin in the presence of 100 ppm of dibenzotiophene at 250°C and 15 atm of pressure of hydrogen, using a Parr reactor. We described the preparation of new nanostructured catalytic materials containing highly and homogeneously dispersed particles of Ir 0 after reduction, and investigate their activity for hydrogenation of aromatic compounds, using tetralin as a model substrate. The metal particle size of supported metal catalysts is an important factor affecting the catalytic behavior and the support, in particular, the pore structure, can affect the metal dispersion. The Ir/SBA 3 catalyst synthesized by us had higher activity than Ir/Al-SBA-3 and Ir-MCM-41, measured in tetralin hydrogenation at mild conditions. The experimental data were quantitatively represented by a modified Langmuir-Hinshelwood type rate equation. The catalyst showed a good resistance to sulfur. The preliminary results show this material as a promising catalyst for HDS/HDN reactions.
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    Synthesis of polypyrrol nanowires within SBA-3 and Na-AISBA-3 materials.
    (Universidad Tecnológica Nacional. Facultad Regional Córdoba., 2011) Gómez costa, Marcos; Martínez , María; Beltramone , Andrea; Anunziata , Oscar; Luna D´amicis, Froilán Andrés
    Mesoporous materials, such as SBA-3 and Na-Al-SBA-3 having hexagonal ordered mesopores and an extremely high specific surface area, offer unique opportunities for the preparation of new nanostructure composite materials. The incorporation of conducting polymers such as polypyrrole (PPy) into nanostructured materials is very interesting. The introduction of macromolecules offers specific properties in the composite material. The use of monomer adsorption from the vapor phase has been successfully employed earlier by us, adsorbing the monomer into de pores of nanostructured materials and not on the outside surface, ready for the in-situ polymerization [1, 2]. The adsorption into the pores takes place by capillary effects. In this work, for first time we report the synthesis of polypyrrole in SBA-3 and Na-Al-SBA-3 composites, studying the influence of two oxidant agent at different temperatures
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    New synthesis of SBA-3 mesoporous material using silica gel as silica source
    (2014) Martínez, María Laura; Ponte, María Virginia; Anunziata, Oscar Alfredo; Beltramone, Andrea Raquel
    One of the main areas of interest in materials chemistry is the synthesis of mesoporous molecular sieves with highly controllable morphologies for the purpose of providing catalytic, separation, and adsorption applications to industry. The main drawback is that the expensive source of silicon as alkoxide (Si(OEt)4 or Si(OMe)4) prevents any application where large amounts of materials are required [1–2]. Ordered mesoporous silica material has been synthesized successfully by using cetyltrimethylamonium bromide (CTAB) as a structure-directing agent and inexpensive silica gel dissolved in a solution of sodium hydroxide, as the silica source without any additives. The synthesis is performed at room temperature in the presence of hydrochloric acid. The analysis of X ray diffraction shows that the resultant mesoporous materials possess an hexagonal mesostructure. We studied the effect of the initial NaOH concentration and the synthesis time on the structure and morphology of mesoporous silica SBA-3. The crystal size and structural order of the samples were found to be greatly affected by NaOH variations. The results suggest that, if the NaOH concentration increases reaching values higher than 1 M, the SBA-3 is not generated, since there is no precipitation or formation of silica gel in the reaction, appearing the corresponding disordered or amorphous silica. Whereas, when time increase from 45 min to 120 min, with molar concentration of NaOH of 0.75, the material obtained show a hexagonal mesostruture observed in the XRD pattern.