Litcius/Paper detail

Crystal structures and magnetic properties of spinel ferrites synthesized from natural Fe–Mg–Ca carbonates

Vitalii Ponomar

2022Materials Research Bulletin27 citationsDOIOpen Access PDF

Abstract

Spinel ferrites with tunable magnetic properties were synthesized by the thermal treatment of Mg-substituted siderite and ankerite at different temperatures. The changes in magnetization and Curie temperature were monitored as a function of calcination temperature. A rapid increase in magnetization up to 25 Am2/kg was observed at 600 °С owing to spinel ferrite formation from a magnetite–magnesioferrite solid solution, followed by a moderate increase in magnetization (up to 30 Am2/kg) at 900 °С. Simultaneously, the Curie temperature decreased from 500 °C to 280 °C owing to Fe oxidation and cation redistribution. The resulting magnetic product (σS ≥ 30 Am2/kg, TC: 280 °C) exhibited a mixed spinel structure with a maghemite-like stoichiometry, (Fe3+, Mg)(Fe3+, Mg)2O3+ẟ, a crystallite size of 22 nm at 700 °C and 34 nm at 900 °C, and an increased unit cell length (a = 8.41 Å).

Topics & Concepts

SpinelMaghemiteCurie temperatureMagnetizationCalcinationFerrimagnetismMaterials scienceCrystalliteMagnetiteAnkeriteFerrite (magnet)Crystal structureAnalytical Chemistry (journal)SideriteMineralogyNuclear magnetic resonanceChemistryCrystallographyMetallurgyFerromagnetismCondensed matter physicsPyriteComposite materialQuantum mechanicsBiochemistryPhysicsCatalysisChromatographyMagnetic fieldMagnetic Properties and Synthesis of FerritesIron oxide chemistry and applicationsMultiferroics and related materials