Royal Society Open Science (Oct 2021)

Increased room temperature ferromagnetism in Co-doped tetrahedral perovskite niobates

  • Yi Zhou,
  • Qing He,
  • Fei Zhou,
  • Xingqi Liao,
  • Yong Liu,
  • Zhonghong Lai,
  • Mingqing Liao,
  • Tianyi Han,
  • Yudong Huang,
  • Jingchuan Zhu

DOI
https://doi.org/10.1098/rsos.210121
Journal volume & issue
Vol. 8, no. 10

Abstract

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Dilute magnetic semiconductors (DMSs), such as (In, Mn)As and (Ga, Mn)As prototypes, are limited to III–V semiconductors with Curie temperatures (Tc) far from room temperature, thereby hindering their wide application. Here, one kind of DMS based on perovskite niobates is reported. BaMxNb(1−x)O3−δ (M = Fe, Co) powders are prepared by the composite-hydroxide-mediated method. The addition of M elements endows BaMxNb(1−x)O3−δ with local ferromagnetism. The tetragonal BaCoxNb(1−x)O3−δ nanocrystals can be obtained by Co doping, which shows strong saturation magnetization (Msat) of 2.22 emu g−1, a remnant magnetization (Mr) of 0.084 emu g−1 and a small coercive field (Hc) of 167.02 Oe at room temperature. The ab initio calculations indicate that Co doping could lead to a 64% local spin polarization at the Fermi level (EF) with net spin DOS of 0.89 electrons eV−1, this result shows the possibility of maintaining strong ferromagnetism at room temperature. In addition, the trade-off effect between the defect band absorption and ferromagnetic properties of BaMxNb(1−x)O3−δ is verified experimentally and theoretically.

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