PHYSICAL-CHEMICAL CHARACTERIZATION OF PHOSPHATETUNGSTEN BRONZE DOPED WITH IRON FROM HETEROPOLY SALTS AS PRECURSORS
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Ацковић, Јована
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Heteropolyacids, with a general formula ofH3+xAM12O40∙nH2O (x=0-1; A=P,
Si, B, As, Ge;M=Mo, W; n=30-6) are of special interest as newmaterials because
of their high conductivities. Among them special attention deserves the
12-tungstophosphoric (29- WPA) acid. Heteropolies of acids and salts heteropolises
of acids can also be used as starting materials for the production of tungsten
bronzes. These bronzes have a specific structure that results from the collapse
of the Kegin anion at a temperatures up to 602 0C. This structure is layered and
consists of interconnected PO4tetrahedra and WO6octahedra. In such a structure,
pentagonal and hexagonal openings (cavities, channels) are formed in which
there is a complete or partial exchange of H+ ions in WPA. In this paper, 12-tungstenphosphoric
acid was synthesized, ion exchange gave 12-tungstenphosphoric
acid of the transition metal (FePW12O40 ∙ nH2O). Thermal analysis determined
the temperature of the phase transition (the temperature at which the structure
of the Kegin anion is disturbed) at a temperature (about 600 0C) to obtain phosphate
tungsten bronzes doped with iron. Physico-chemical methods IR, XRPD
and SEM were used to characterize the material. Due to their ionic and electronic
conductivity and other useful properties, heteropoly compounds have wide
application: as new materials, superionic conductors, in biology, pharmacy and
medicine. This paper presents a new contribution to the elucidation of problems
related to structure, identification of conductive species and examination of WPA
phase transformations to bronze formation by different methods and design of
obtained structures, and our further research will be directed in these directions.
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