Advanced Materials Interfaces (May 2024)

Non‐Oxidative Mechanism in Oxygen‐Based Magneto‐Ionics

  • Tanvi Bhatnagar‐Schöffmann,
  • Patrick Schöffmann,
  • Andrea Resta,
  • Alessio Lamperti,
  • Guillaume Bernard,
  • András Kovács,
  • Ludovic Largeau,
  • Alan Durnez,
  • Abdelmounaim Harouri,
  • Xavier Lafosse,
  • Djoudi Ourdani,
  • Maria‐Andromachi Syskaki,
  • Yves Roussigné,
  • Shimpei Ono,
  • Rafal E. Dunin‐Borkowski,
  • Jürgen Langer,
  • Dafiné Ravelosona,
  • Mohamed Belmeguenai,
  • Aurelie Solignac,
  • Liza Herrera Diez

DOI
https://doi.org/10.1002/admi.202300955
Journal volume & issue
Vol. 11, no. 14
pp. n/a – n/a

Abstract

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Abstract The Ta/CoFeB/Pt/MgO/HfO2 system is investigated, whose magnetic anisotropy can be controlled through magneto‐ionic gating, using both ionic liquid and solid state gating, via a non‐oxidative mechanism combining reversible and irreversible gating effects. Analysis of X‐ray absorption spectroscopy at the Co and Fe edges reveals no indications of oxidation after gating, while a reversible change at the oxygen K edge suggests the involvement of oxygen species in the magneto‐ionic process. In addition, X‐ray diffraction measurements reveal that gating can irreversibly increase the crystalline volume of MgO, through an increase in the MgO/Mg(OH)2 ratio. This is in line with measurements in solid state devices showing that in a series of 150 gating cycles a reversible effect combines with a progressive increase in the strength of the perpendicular magnetic anisotropy contribution that saturates after extensive cycling. Consequently, the observed gate‐induced changes in magnetic anisotropy can be attributed to the combined effects of Mg(OH)2 dehydration into MgO (irreversible) and most likely a gentle reordering of oxygen species at the CoFeB interface (reversible) leading to a non‐oxidative magneto‐ionic mechanism. This study provides valuable insights into the underlying mechanisms governing the complex magneto‐ionic phenomena, including the coexistence of both reversible and irreversible effects, and a pathway to voltage‐control of crystalline order in spintronics materials.

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