Persona:
Martín Aranda, Rosa María

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ORCID
0000-0001-5628-8144
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Martín Aranda
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Rosa María
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2014 - 20192
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Nivel de acceso: info:eu-repo/semantics/openAccess × search.filters.applied.f.itemFacultad: Facultad de Ciencias ×

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Mostrando 1 - 2 de 2
  • Miniatura
    Publicación
    Eco-friendly catalytic systems based on MgO- Supporting carbon materials for the Friedländer condensation
    (Wiley, 2014-12) Godino Ojer, Marina; López Peinado, Antonio José; Przepiórski, J.; Pérez Mayoral, María Elena; Soriano, Elena; Martín Aranda, Rosa María
    Carbon-supported MgO materials are excellent and sustainable catalysts for the synthesis of N-containing heterocyclic compounds by the Friedländer condensation under mild, solvent-free conditions. The results reported herein indicate that MgO is the most active catalytic species that accelerates the reaction compared with the catalytic behavior observed for the carbon material Norit RX3. On the basis of DFT calculations, a reaction mechanism that involves dual activation of the reacting structures by the catalyst is proposed. Oxide, outside: MgO supported on carbon is able to catalyze the synthesis of interesting N-containing heterocyclic compounds efficiently under mild conditions. MgO on the carbon surface is responsible for the catalytic behavior. These carbon materials are environmentally friendly catalysts for the Friedländer reaction.
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    Publicación
    Tantalum vs Niobium MCF nanocatalysts in the green synthesis of chromene derivatives
    (Elsevier, 2019-03-15) Smuszkiewicz, Agata; López Sanz, Jesús; Sobczakb, Izabela; Ziolek, María; Martín Aranda, Rosa María; Pérez Mayoral, María Elena
    TaMCF silicas modified with alkaline metals can be considered a novel family of highly efficient bifunctional catalysts involved in the synthesis of chromene derivatives, from salicylaldehyde 2 and acetonitrile compounds, under mild conditions, showing enhanced catalytic performance than their NbMCF analogues. The observed reactivity was mainly attributed to the higher basicity of the Me/TaMCF but also the texture of the samples. The Me/TaMCF silicas showed higher Brønsted basicity than the Nb ones as indicated by the stronger interaction between alkali metals and Ta in the UV–vis and the test reaction experiments. On the other hand, the basicity of Me/TaMCF together the reactivity degree and steric hindrance of the starting acetonitriles are key factors influencing the reaction selectivity. In conclusion, the basicity of the samples plays an important role initiating the reaction by activation of nucleophile but also a compromise between alkaline cation size and basicity is required.