Electrical, magnetic, and optical properties in multiferroic Bi 5Ti3FeO15 thin films prepared by a chemical solution deposition route

W. Bai; Y. Q. Gao; J. Y. Zhu; X. J. Meng; T. Lin; J. Yang; Z. Q. Zhu; J. H. Chu

doi:10.1063/1.3553879

Electrical, magnetic, and optical properties in multiferroic Bi ₅Ti₃FeO₁₅ thin films prepared by a chemical solution deposition route

W. Bai^*
, Y. Q. Gao
, J. Y. Zhu
, X. J. Meng
, T. Lin
, J. Yang
, Z. Q. Zhu
, J. H. Chu

^*Corresponding author for this work

School of Physics and Electronic Science

Research output: Contribution to journal › Article › peer-review

74 Scopus citations

Abstract

Perovskite Aurivillius structure Bi₅Ti₃FeO ₁₅ (BTF) polycrystalline thin films were prepared by a chemical solution deposition route. The microstructure, electrical, and magnetic properties were investigated and in particular the optical properties of the BTF films were addressed. The coexistence of the ferroelectric and weak ferromagnetic properties at room temperature demonstrates the multiferroic behavior of the BTF films. The optical dielectric functions in the photon energy range of 1.13-4.13 eV have been extracted by fitting the experimental data in terms of the Tauc-Lorentz and Cauchy models. A direct interband transition is allowed and the energy bandgap is determined to be ∼3.3 eV for the BTF films. The weak absorption below the bandgap edge was observed and described by the Urbach band tail rule. Finally, the optical dispersion behaviors of the BTF films in the transparent region were explained using a single oscillator model.

Original language	English
Article number	064901
Journal	Journal of Applied Physics
Volume	109
Issue number	6
DOIs	https://doi.org/10.1063/1.3553879
State	Published - 15 Mar 2011

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title = "Electrical, magnetic, and optical properties in multiferroic Bi 5Ti3FeO15 thin films prepared by a chemical solution deposition route",

abstract = "Perovskite Aurivillius structure Bi5Ti3FeO 15 (BTF) polycrystalline thin films were prepared by a chemical solution deposition route. The microstructure, electrical, and magnetic properties were investigated and in particular the optical properties of the BTF films were addressed. The coexistence of the ferroelectric and weak ferromagnetic properties at room temperature demonstrates the multiferroic behavior of the BTF films. The optical dielectric functions in the photon energy range of 1.13-4.13 eV have been extracted by fitting the experimental data in terms of the Tauc-Lorentz and Cauchy models. A direct interband transition is allowed and the energy bandgap is determined to be ∼3.3 eV for the BTF films. The weak absorption below the bandgap edge was observed and described by the Urbach band tail rule. Finally, the optical dispersion behaviors of the BTF films in the transparent region were explained using a single oscillator model.",

author = "W. Bai and Gao, \{Y. Q.\} and Zhu, \{J. Y.\} and Meng, \{X. J.\} and T. Lin and J. Yang and Zhu, \{Z. Q.\} and Chu, \{J. H.\}",

year = "2011",

month = mar,

day = "15",

doi = "10.1063/1.3553879",

language = "英语",

volume = "109",

journal = "Journal of Applied Physics",

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TY - JOUR

T1 - Electrical, magnetic, and optical properties in multiferroic Bi 5Ti3FeO15 thin films prepared by a chemical solution deposition route

AU - Bai, W.

AU - Gao, Y. Q.

AU - Zhu, J. Y.

AU - Meng, X. J.

AU - Lin, T.

AU - Yang, J.

AU - Zhu, Z. Q.

AU - Chu, J. H.

PY - 2011/3/15

Y1 - 2011/3/15

N2 - Perovskite Aurivillius structure Bi5Ti3FeO 15 (BTF) polycrystalline thin films were prepared by a chemical solution deposition route. The microstructure, electrical, and magnetic properties were investigated and in particular the optical properties of the BTF films were addressed. The coexistence of the ferroelectric and weak ferromagnetic properties at room temperature demonstrates the multiferroic behavior of the BTF films. The optical dielectric functions in the photon energy range of 1.13-4.13 eV have been extracted by fitting the experimental data in terms of the Tauc-Lorentz and Cauchy models. A direct interband transition is allowed and the energy bandgap is determined to be ∼3.3 eV for the BTF films. The weak absorption below the bandgap edge was observed and described by the Urbach band tail rule. Finally, the optical dispersion behaviors of the BTF films in the transparent region were explained using a single oscillator model.

AB - Perovskite Aurivillius structure Bi5Ti3FeO 15 (BTF) polycrystalline thin films were prepared by a chemical solution deposition route. The microstructure, electrical, and magnetic properties were investigated and in particular the optical properties of the BTF films were addressed. The coexistence of the ferroelectric and weak ferromagnetic properties at room temperature demonstrates the multiferroic behavior of the BTF films. The optical dielectric functions in the photon energy range of 1.13-4.13 eV have been extracted by fitting the experimental data in terms of the Tauc-Lorentz and Cauchy models. A direct interband transition is allowed and the energy bandgap is determined to be ∼3.3 eV for the BTF films. The weak absorption below the bandgap edge was observed and described by the Urbach band tail rule. Finally, the optical dispersion behaviors of the BTF films in the transparent region were explained using a single oscillator model.

UR - https://www.scopus.com/pages/publications/79953656748

U2 - 10.1063/1.3553879

DO - 10.1063/1.3553879

M3 - 文章

AN - SCOPUS:79953656748

SN - 0021-8979

VL - 109

JO - Journal of Applied Physics

JF - Journal of Applied Physics

IS - 6

M1 - 064901

ER -

Electrical, magnetic, and optical properties in multiferroic Bi ₅Ti₃FeO₁₅ thin films prepared by a chemical solution deposition route

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