Preparation of highly c-axis-oriented Bi4Ti3O12 thin films and their crystallographic, dielectric and optical properties

Masaki Yamaguchi; Takao Nagamoto; Osamu Omoto

doi:10.1016/S0040-6090(96)09456-4

Preparation of highly c-axis-oriented Bi₄Ti₃O₁₂ thin films and their crystallographic, dielectric and optical properties

Masaki Yamaguchi, Takao Nagamoto, Osamu Omoto

研究成果: Article › 査読

23 被引用数 (Scopus)

抄録

Bismuth titanate (Bi₄Ti₃O₁₂) thin films with a high c-axis orientation up to 99% were prepared on (100)-oriented silicon wafers by r.f. planar magnetron sputtering using a Bi₂TiO₅ ceramic target at a substrate temperature of 600°C. From the Auger electron spectroscopy depth profile of the film, there is no evidence of interdiffusion of a specific element between the film and the substrate. Relative dielectric constant of these films depends on film thickness. The behavior was explained assuming a low-dielectric-constant interface layer. Using this assumption, the relative dielectric constant of Bi₄Ti₃O₁₂ film was estimated to be approximately 140. This value is close to that along the c axis in a bulk form. The remanent polarization and the coercive field were 0.8 μC cm^-2 and 20 kV cm^-1, respectively.

本文言語	English
ページ（範囲）	299-304
ページ数	6
ジャーナル	Thin Solid Films
巻	300
号	1-2
DOI	https://doi.org/10.1016/S0040-6090(96)09456-4
出版ステータス	Published - 1997 5月 28

ASJC Scopus subject areas

電子材料、光学材料、および磁性材料
表面および界面
表面、皮膜および薄膜
金属および合金
材料化学

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10.1016/S0040-6090(96)09456-4

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引用スタイル

@article{5f22f8e8dfdd4a27899c3ccd6ec39a45,

title = "Preparation of highly c-axis-oriented Bi4Ti3O12 thin films and their crystallographic, dielectric and optical properties",

abstract = "Bismuth titanate (Bi4Ti3O12) thin films with a high c-axis orientation up to 99% were prepared on (100)-oriented silicon wafers by r.f. planar magnetron sputtering using a Bi2TiO5 ceramic target at a substrate temperature of 600°C. From the Auger electron spectroscopy depth profile of the film, there is no evidence of interdiffusion of a specific element between the film and the substrate. Relative dielectric constant of these films depends on film thickness. The behavior was explained assuming a low-dielectric-constant interface layer. Using this assumption, the relative dielectric constant of Bi4Ti3O12 film was estimated to be approximately 140. This value is close to that along the c axis in a bulk form. The remanent polarization and the coercive field were 0.8 μC cm-2 and 20 kV cm-1, respectively.",

keywords = "Crystallization, Dielectric properties, Optical properties, Sputtering",

author = "Masaki Yamaguchi and Takao Nagamoto and Osamu Omoto",

note = "Funding Information: fits the dispersion of the refractive index for a large number of materials \[22\]w, here SO represents an oscillator strength and h 0 the position of an average oscillator. In the inset of Fig. 10 1/(n 2-1) of the Bi4Ti3012 film is plotted as a function of 1/h a and is found to fit the Sellmeier dispersion formula very well. The values of SO and h 0 are 0.52 × 1014 m -2 and 0.26 t~m, respectively, from the extrapolated straight line. These values were good agreement that of other perovskite-structured materials \[23\]. This result is supported by the fact that existence of a low-dielectric-constant interface layer inferred by the electrical properties. Copyright: Copyright 2018 Elsevier B.V., All rights reserved.",

year = "1997",

month = may,

day = "28",

doi = "10.1016/S0040-6090(96)09456-4",

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journal = "Thin Solid Films",

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T1 - Preparation of highly c-axis-oriented Bi4Ti3O12 thin films and their crystallographic, dielectric and optical properties

AU - Yamaguchi, Masaki

AU - Nagamoto, Takao

AU - Omoto, Osamu

N1 - Funding Information: fits the dispersion of the refractive index for a large number of materials \[22\]w, here SO represents an oscillator strength and h 0 the position of an average oscillator. In the inset of Fig. 10 1/(n 2-1) of the Bi4Ti3012 film is plotted as a function of 1/h a and is found to fit the Sellmeier dispersion formula very well. The values of SO and h 0 are 0.52 × 1014 m -2 and 0.26 t~m, respectively, from the extrapolated straight line. These values were good agreement that of other perovskite-structured materials \[23\]. This result is supported by the fact that existence of a low-dielectric-constant interface layer inferred by the electrical properties. Copyright: Copyright 2018 Elsevier B.V., All rights reserved.

PY - 1997/5/28

Y1 - 1997/5/28

N2 - Bismuth titanate (Bi4Ti3O12) thin films with a high c-axis orientation up to 99% were prepared on (100)-oriented silicon wafers by r.f. planar magnetron sputtering using a Bi2TiO5 ceramic target at a substrate temperature of 600°C. From the Auger electron spectroscopy depth profile of the film, there is no evidence of interdiffusion of a specific element between the film and the substrate. Relative dielectric constant of these films depends on film thickness. The behavior was explained assuming a low-dielectric-constant interface layer. Using this assumption, the relative dielectric constant of Bi4Ti3O12 film was estimated to be approximately 140. This value is close to that along the c axis in a bulk form. The remanent polarization and the coercive field were 0.8 μC cm-2 and 20 kV cm-1, respectively.

AB - Bismuth titanate (Bi4Ti3O12) thin films with a high c-axis orientation up to 99% were prepared on (100)-oriented silicon wafers by r.f. planar magnetron sputtering using a Bi2TiO5 ceramic target at a substrate temperature of 600°C. From the Auger electron spectroscopy depth profile of the film, there is no evidence of interdiffusion of a specific element between the film and the substrate. Relative dielectric constant of these films depends on film thickness. The behavior was explained assuming a low-dielectric-constant interface layer. Using this assumption, the relative dielectric constant of Bi4Ti3O12 film was estimated to be approximately 140. This value is close to that along the c axis in a bulk form. The remanent polarization and the coercive field were 0.8 μC cm-2 and 20 kV cm-1, respectively.

KW - Crystallization

KW - Dielectric properties

KW - Optical properties

KW - Sputtering

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