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Solid state synthesis of micro and nanostructured metal oxides using organometallic-polymers precursors

    1. [1] Universidad de Chile

      Universidad de Chile

      Santiago, Chile

    2. [2] Universidad Autónoma de Chile

      Universidad Autónoma de Chile

      Temuco, Chile

    3. [3] Universidad de Oviedo

      Universidad de Oviedo

      Oviedo, España

  • Localización: Journal of the Chilean Chemical Society (Boletín de la Sociedad Chilena de Química), ISSN-e 0717-6309, ISSN 0366-1644, Vol. 59, Nº. 2, 2014, págs. 2437-2441
  • Idioma: inglés
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  • Resumen
    • The organometallic derivatives of poly(styrene-co-4vinylpyridine), PS-co-4-PVP, of the general formula: {[CH2CH(C6H J)]0.1[CH2CH(C5H4N•MLn)]0.9}n; MLn = W(CO)5 , (1), CpRu(PPh3)2 (2), CpFe(dppe) (3), Cp2TiCl (4) and CH3-C5H4-Mn(CO)2 (5) were prepared from the respective organometallic and the ' co-polymer {[CH2CH(C6H5)]0.1[CH2CH(C5H4N]0.9}n. The solid state pyrolysis of these derivatives under air and at 800 °C give rise to micro and nanostructured powder metal oxides WO3, RuO2, TiO2 Mn2O3 and the iron (III) phosphate (FePO4) in the case of the iron precursor. The pyrolytic products were characterized by X-ray diffraction (XRD), scanning electron microscopy (SEM), transmission electron microscopy (TEM), and energy dispersive X-ray scattering (EDX) and infrared spectroscopy (IR). From the TG (thermal gravimetric) and DSC (differential scanning calorimetry) data a possible mechanism for the formation of the solid nanostructured materials is discussed. The method appears to be a reliable and general way to obtain nanostructured metal oxide in solid-state which could be potentially and easily incorporated in solid-state electronics, catalysts and sensor devices.

Los metadatos del artículo han sido obtenidos de SciELO Chile

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