Rev. Bras. Ciênc. Solo.2013;37(6):1569-75.

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Structural and magnetic characterization of maghemites prepared from Al-substituted magnetites

Marcelo Augusto Batista, Antonio Carlos Saraiva da Costa, Jerry Marshal Bigham, Andrea Paesano Junior, Graciele Berndt, Tadeu Takeyoshi Inoue, Adriele Galeti Nonaka

01/Dec/2013

DOI: 10.1590/S0100-06832013000600013

Synthetic aluminum-substituted maghemites were characterized by total chemical analysis, powder X-ray diffraction (XRD), Mössbauer spectroscopy (ME), and vibrating sample magnetometry (VSM). The aim was to determine the structural, magnetic, and hyperfine properties of γ-Fe_2-xAl_xO₃ as the Al concentration is varied. The XRD results of the synthetic products were indexed exclusively as maghemite. Increasing Al for Fe substitution decreased the mean crystalline dimension and shifted all diffraction peaks to higher ^o2θ angles. The a₀ dimension of the cubic unit cell decreased with increasing Al according to the equation a_o = 0.8385 – 3.63 x 10^-5 Al (R²= 0.94). Most Mössbauer spectra were composed of one sextet, but at the highest substitution rate of 142.5 mmol mol^-1 Al, both a doublet and sextet were obtained at  300 K. All hyperfine parameters from the sub-spectra were consistent with high-spin Fe³⁺ (0.2 a 0.7 mms^-1) and suggested a strong superparamagnetic component associated with the doublet. The magnetic hyperfine field of the sextets decreased with the amount of Al-substitution [B_hf (T) = 49.751 – 0.1202Al; R² = 0.94] while the linewidth increased linearly. The saturation magnetization also decreased with increasing isomorphous substitution.