Catalytic activity of copper polyphthalocyanines in decomposition of hydrogen peroxide

Abstract

Interatomic interaction in amorphous (Co41Fe39B20)x(SiO2)1−x nanocomposites was investigated with the use of X-ray absorption near-edge structure (XANES) technique that is one of the most sensitive to the chemical surrounding of the elements in multi-component compounds. XANES spectra of Fe L2,3-edges, Co L2,3-edges, B K-edge, Si L2,3-edges and O K-edge demonstrated the presence of interatomic interaction between the elements of metallic and dielectric components of the nanocomposite. These interactions result in a formation of the complex multi-phase system and its electron structure should have an influence on the electrophysical and magnetic properties of nanocomposites. Particularly, transformation of the fine structure of iron L2,3-edges spectra represents the change of ratio of two- and three-valence iron atoms in oxides and/or silicates. The presence of CoO and complex boron oxides in nanocomposites was also detected. Therefore, electroconductivity within the boundaries of a single grain of nanocomposite (nanoferrite) with a possible composition of FeO·Fe2O3·CoO·BxOy is due to the transitions of electrons not only between Fe2+ and Fe3+ ions but also between the ions of Co2+, Fe2+ and Fe3+. At the same time, dielectric component represents a mixture of silicon oxide and silicates of transition metals.