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Magnetic transitions and structural characteristics of Mn-doped α-Fe2O3/silica nanocomposites

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AIP ADVANCES
卷 11, 期 6, 页码 -

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AIP Publishing
DOI: 10.1063/5.0053400

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In this study, the magnetism and ionic behaviors of rare manganese-doped alpha-Fe2O3/silica nanocomposites were investigated. The research found that specific molar ratios of Fe and Mn halides can lead to different magnetic properties and crystal structures in the nanocomposites.
Hematite (alpha-Fe2O3) has become popular these days for their photocatalytic activities of water splitting. Metal-doped hematite materials are interesting as well for the bandgap engineering and for resolving fast charge-hole recombination. In this study, magnetism and ionic behaviors of rare manganese-doped alpha-Fe2O3/silica nanocomposites are investigated. These nanocomposites are prepared by the impregnation method with a mixture of metal halides, followed by rapid heating (30 degrees C/min) under air condition. When the molar ratio between FeCl3 center dot 6H(2)O and MnCl2 center dot 4H(2)O is 2.97, wasp-waisted hysteresis and ferromagnetism with the Curie temperatures of 56.1 and 58.0 K are observed for the nanocomposites annealed at 600 degrees C for the duration of 3 and 7 h, respectively, while dominant spin glass states are observed for the nanocomposites annealed at 500 degrees C. In x-ray diffraction patterns, mixed phases of alpha-Fe2O3 are identified, whereas crystalline metallic Mn or Mn oxides are hardly found. Electron energy-loss spectroscopy study indicates that Mn2+ is severely oxidized, and with this oxidation of Mn2+, Si becomes more metallic. When the molar ratio between Fe and Mn halides is 7.32, magnetism is affected by a small amount of gamma-Fe2O3, and spin glass states and the competition between ferromagnetism and antiferromagnetism are observed in the long temperature range.

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