H. Wilkens scite author profile

The structural changes of a (111) oriented CeO2 film grown on a Si(111) substrate covered with a hex-Pr2O3(0001) interface layer due to post deposition annealing are investigated. X-ray photoelectron spectroscopy measurements revealing the near surface stoichiometry show that the film reduces continuously upon extended heat treatment. The film is not homogeneously reduced since several coexisting crystalline ceria phases are stabilized due to subsequent annealing at different temperatures as revealed by high resolution low energy electron diffraction and X-ray diffraction. The electron diffraction measurements show that after annealing at 660 °C the ι-phase (Ce7O12) is formed at the surface which exhibits a (√7 × √7)R19.1° structure. Furthermore, a (√27 × √27)R30° surface structure with a stoichiometry close to Ce2O3 is stabilized after annealing at 860 °C which cannot be attributed to any bulk phase of ceria stable at room temperature. In addition, it is shown that the fully reduced ceria (Ce2O3) film exhibits a bixbyite structure. Polycrystalline silicate (CeSi(x)O(y)) and crystalline silicide (CeSi1.67) are formed at 850 °C and detected at the surface after annealing above 900 °C.

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Oxygen Vacancy Induced Room Temperature Ferromagnetism in Pr-Doped CeO₂ Thin Films on Silicon

Niu

Hildebrandt

Schubert

et al. 2014

ACS Appl. Mater. Interfaces

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Integration of functional oxides on Si substrates could open a pathway to integrate diverse devices on Si-based technology. Oxygen vacancies (Vo(··)) can strongly affect solid state properties of oxides, including the room temperature ferromagnetism (RTFM) in diluted magnetic oxides. Here, we report a systematical study on the RTFM of oxygen vacancy engineered (by Pr(3+) doping) CeO2 epitaxial thin films on Si substrates. High quality, mixed single crystalline Ce1-xPrxO2-δ (x = 0-1) solid solution films were obtained. The Ce ions in CeO2 with a fluorite structure show a Ce(4+)-dominant valence state in all films. The local crystal structures of the films were analyzed in detail. Pr doping creates both Vo(··) and PrO8-complex defects in CeO2 and their relative concentrations vary with the Pr-doping level. The RTFM properties of the films reveal a strong dependence on the relative Vo(··) concentration. The RTFM in the films initially increases with higher Pr-doping levels due to the increase of the F(+) center (Vo(··) with one occupied electron) concentration and completely disappears when x > 0.2, where the magnetic polaron concentration is considered to decline below the percolation threshold, thus long-range FM order can no longer be established. We thus demonstrate the possibility to directly grow RTFM Pr-doped CeO2 films on Si substrates, which can be an interesting candidate for potential magneto-optic or spintronic device applications.

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Vectorial magnetometry using magnetooptic Kerr effect including first- and second-order contributions for thin ferromagnetic films

Kuschel¹,

Bardenhagen²,

Wilkens³

et al. 2011

J. Phys. D: Appl. Phys.

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A new combination of different vectorial magnetometry techniques using magnetooptic Kerr effect is described. The processing of the experimental data contains the separation of linear and quadratic parts of the magnetization curves and determination of all three components of the magnetization vector in units of Kerr rotation without any normalization to the saturation values. The experimental procedure includes measurements with parallel and perpendicular polarized incident light and an external magnetic field parallel and perpendicular to the plane of incidence of light. The determination of the complex Kerr amplitude and the theoretic description of the data processing in assumption of small angles of incidence and also for larger angles of incidence using adequate scaling to the mean saturation value validate this vectorial magnetometry method. In case of an absent out-of-plane component of the magnetization vector, the complete reversal process can easily be reconstructed and interpreted by mono domain states and domain splitting. The measurement procedure and the processing of the data is demonstrated for an ultra thin epitaxial Fe film on MgO(001).

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Stoichiometry–structure correlation of epitaxial Ce1−Pr O2− (x=0−1) thin films on Si(111)

Zoellner¹,

Zaumseil²,

Wilkens³

et al. 2012

Journal of Crystal Growth

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H. Wilkens

Stabilization of the ceria ι-phase (Ce7O12) surface on Si(111)

Structural transitions of epitaxial ceria films on Si(111)

Oxygen Vacancy Induced Room Temperature Ferromagnetism in Pr-Doped CeO₂ Thin Films on Silicon

Vectorial magnetometry using magnetooptic Kerr effect including first- and second-order contributions for thin ferromagnetic films

Stoichiometry–structure correlation of epitaxial Ce1−Pr O2− (x=0−1) thin films on Si(111)

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H. Wilkens

Stabilization of the ceria ι-phase (Ce7O12) surface on Si(111)

Structural transitions of epitaxial ceria films on Si(111)

Oxygen Vacancy Induced Room Temperature Ferromagnetism in Pr-Doped CeO2 Thin Films on Silicon

Vectorial magnetometry using magnetooptic Kerr effect including first- and second-order contributions for thin ferromagnetic films

Stoichiometry–structure correlation of epitaxial Ce1−Pr O2− (x=0−1) thin films on Si(111)

Contact Info

Product

Resources

About

Oxygen Vacancy Induced Room Temperature Ferromagnetism in Pr-Doped CeO₂ Thin Films on Silicon