What question did this study set out to answer?

The study aims to explore the structural and magnetic properties of Fe-doped manganese ferrites.

February 6, 2026Open Access

Structural and magnetic investigation of Fe-doped Mn3− x Fe x O4 ( x ≤ 0.1)

Key Points

The study aims to explore the structural and magnetic properties of Fe-doped manganese ferrites.
Used x-ray diffraction to analyze structural changes.
Employed superconducting quantum interference device for magnetic measurements.
Applied Mössbauer spectroscopy to monitor iron ion behavior.
Investigated spin structure with varying amounts of Fe substitution.
Fe2+ ions were detected at tetrahedral sites.
Significant tetragonality observed for x ≤ 0.075 at room temperature.
Disappearance of Fe2+ sub-spectrum noted with increased temperature for x = 0.08.
Controlled tetragonality and spin structure through temperature and ion substitution.

Abstract

In this study, structural and magnetic properties of Fe ion-containing manganese ferrites Mn3−xFexO4 (x ≤ 0.1) have been investigated by using x-ray diffraction, superconducting quantum interference device magnetometer, and Mössbauer spectroscopy. Spin structure of Mn-rich ferrite was monitored by small-amount substitution of Fe for Mn. Mössbauer spectra showed that small amount of Fe2+ presented in the tetrahedral site. Since the Mn3+ ion in the octahedral site is Jahn–Teller active, large tetragonality was detected for x ≤ 0.075 at room temperature. For x = 0.08, sub-spectrum of Fe2+ located at the tetrahedral site gradually disappeared with increasing temperature. Inspired by this observation, the possibility of controlling the tetragonality and spin structure not only by varying temperature but also by gradually adding non-Jahn–Teller Mössbauer ion into Mn3O4 has been examined.

Structural and magnetic investigation of Fe-doped Mn3− x Fe x O4 ( x ≤ 0.1)

Key Points

Abstract

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