High-energy plasma dynamic synthesis of multiphase iron oxides containing Fe3O4 and epsilon-Fe2O3 with possibility of controlling their phase composition

摘要

Iron oxides, especially well-known magnetite (Fe3O4) and relatively new epsilon-Fe2O3 phase, attract a scientific and practical interest due to their unique magnetic properties. Despite the large number of known methods for synthesizing Fe3O4, obtaining the epsilon-Fe2O3 phase is still remaining an urgent scientific task. This paper presents the studies on the possibility of controlled synthesizing the pointed out iron oxide phases in a single short-term high-energy plasma dynamic process. It is established that the process energy directly affects the phase composition of obtained iron oxides. At higher energies, the products are characterized with the dominance of the epsilon-Fe2O3 phase (up to similar to 65 wt %) presented in the form of nanosized crystallites, while at low energies micron-sized hollow spherical particles attributed to Fe(3)O(4 )are synthesized (up to similar to 75 wt %). By optimizing the synthesis process it is possible to reach the epsilon-Fe2O3 phase yield up to similar to 90 wt %. The change in the phase composition depending on the initial energy parameters directly affects the magnetic characteristics and magnetic behavior of the synthesized iron oxide products. (C) 2018 Elsevier B.V. All rights reserved.