Growth, structural, and magnetic properties of iron nitride thin films deposited by dc magnetron sputtering

X. Wang; W. T. Zheng; H. W. Tian; S. S. Yu; W. Xu; S. H. Meng; X. D. He; J. C. Han; C. Q. Sun; B. K. Tay

doi:10.1016/S0169-4332(03)00752-9

Growth, structural, and magnetic properties of iron nitride thin films deposited by dc magnetron sputtering

X. Wang, W. T. Zheng^*, H. W. Tian, S. S. Yu, W. Xu, S. H. Meng, X. D. He, J. C. Han, C. Q. Sun, B. K. Tay

^*Corresponding author for this work

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

130 Citations (Scopus)

Abstract

FeN thin films were deposited on glass substrates by dc magnetron sputtering at different Ar/N ₂ discharges. The composition, structure and the surface morphology of the films were characterized using X-ray photoelectron spectroscopy (XPS), X-ray diffraction (XRD), and atomic force microscopy (AFM). Films deposited at different nitrogen pressures exhibited different structures with different nitrogen contents, and the surface roughness depended on the mechanism of the film growth. Saturation magnetization and coercivity of all films were determined using superconducting quantum interference device, which showed that if N ₂ /(Ar + N ₂ ) flow ratio was equal to or larger than 30% the nonmagnetic single-phase γ″-FeN appeared. If N ₂ /(Ar + N ₂ ) flow ratio was less than 10%, the films consisted of the mixed phases of FeN _0.056 and γ′-Fe ₁₆ N ₂ , whose saturation magnetizations were larger than that of α-Fe. If N ₂ /(Ar + N ₂ ) flow ratio was 10%, the phases of γ′-Fe ₄ N and ε-Fe ₃ N appeared, whose saturation magnetizations were lower than that of α-Fe.

Original language	English
Pages (from-to)	30-39
Number of pages	10
Journal	Applied Surface Science
Volume	220
Issue number	1-4
DOIs	https://doi.org/10.1016/S0169-4332(03)00752-9
Publication status	Published - Dec 30 2003
Externally published	Yes

ASJC Scopus Subject Areas

Condensed Matter Physics
Surfaces and Interfaces
Surfaces, Coatings and Films

Keywords

Iron nitride thin films
Magnetic property
Magnetron sputtering
Structure

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10.1016/S0169-4332(03)00752-9

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title = "Growth, structural, and magnetic properties of iron nitride thin films deposited by dc magnetron sputtering",

abstract = " FeN thin films were deposited on glass substrates by dc magnetron sputtering at different Ar/N 2 discharges. The composition, structure and the surface morphology of the films were characterized using X-ray photoelectron spectroscopy (XPS), X-ray diffraction (XRD), and atomic force microscopy (AFM). Films deposited at different nitrogen pressures exhibited different structures with different nitrogen contents, and the surface roughness depended on the mechanism of the film growth. Saturation magnetization and coercivity of all films were determined using superconducting quantum interference device, which showed that if N 2 /(Ar + N 2 ) flow ratio was equal to or larger than 30% the nonmagnetic single-phase γ″-FeN appeared. If N 2 /(Ar + N 2 ) flow ratio was less than 10%, the films consisted of the mixed phases of FeN 0.056 and γ′-Fe 16 N 2 , whose saturation magnetizations were larger than that of α-Fe. If N 2 /(Ar + N 2 ) flow ratio was 10%, the phases of γ′-Fe 4 N and ε-Fe 3 N appeared, whose saturation magnetizations were lower than that of α-Fe.",

keywords = "Iron nitride thin films, Magnetic property, Magnetron sputtering, Structure",

author = "X. Wang and Zheng, {W. T.} and Tian, {H. W.} and Yu, {S. S.} and W. Xu and Meng, {S. H.} and He, {X. D.} and Han, {J. C.} and Sun, {C. Q.} and Tay, {B. K.}",

year = "2003",

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doi = "10.1016/S0169-4332(03)00752-9",

language = "English",

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TY - JOUR

T1 - Growth, structural, and magnetic properties of iron nitride thin films deposited by dc magnetron sputtering

AU - Wang, X.

AU - Zheng, W. T.

AU - Tian, H. W.

AU - Yu, S. S.

AU - Xu, W.

AU - Meng, S. H.

AU - He, X. D.

AU - Han, J. C.

AU - Sun, C. Q.

AU - Tay, B. K.

PY - 2003/12/30

Y1 - 2003/12/30

N2 - FeN thin films were deposited on glass substrates by dc magnetron sputtering at different Ar/N 2 discharges. The composition, structure and the surface morphology of the films were characterized using X-ray photoelectron spectroscopy (XPS), X-ray diffraction (XRD), and atomic force microscopy (AFM). Films deposited at different nitrogen pressures exhibited different structures with different nitrogen contents, and the surface roughness depended on the mechanism of the film growth. Saturation magnetization and coercivity of all films were determined using superconducting quantum interference device, which showed that if N 2 /(Ar + N 2 ) flow ratio was equal to or larger than 30% the nonmagnetic single-phase γ″-FeN appeared. If N 2 /(Ar + N 2 ) flow ratio was less than 10%, the films consisted of the mixed phases of FeN 0.056 and γ′-Fe 16 N 2 , whose saturation magnetizations were larger than that of α-Fe. If N 2 /(Ar + N 2 ) flow ratio was 10%, the phases of γ′-Fe 4 N and ε-Fe 3 N appeared, whose saturation magnetizations were lower than that of α-Fe.

AB - FeN thin films were deposited on glass substrates by dc magnetron sputtering at different Ar/N 2 discharges. The composition, structure and the surface morphology of the films were characterized using X-ray photoelectron spectroscopy (XPS), X-ray diffraction (XRD), and atomic force microscopy (AFM). Films deposited at different nitrogen pressures exhibited different structures with different nitrogen contents, and the surface roughness depended on the mechanism of the film growth. Saturation magnetization and coercivity of all films were determined using superconducting quantum interference device, which showed that if N 2 /(Ar + N 2 ) flow ratio was equal to or larger than 30% the nonmagnetic single-phase γ″-FeN appeared. If N 2 /(Ar + N 2 ) flow ratio was less than 10%, the films consisted of the mixed phases of FeN 0.056 and γ′-Fe 16 N 2 , whose saturation magnetizations were larger than that of α-Fe. If N 2 /(Ar + N 2 ) flow ratio was 10%, the phases of γ′-Fe 4 N and ε-Fe 3 N appeared, whose saturation magnetizations were lower than that of α-Fe.

KW - Iron nitride thin films

KW - Magnetic property

KW - Magnetron sputtering

KW - Structure

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Growth, structural, and magnetic properties of iron nitride thin films deposited by dc magnetron sputtering

Abstract

ASJC Scopus Subject Areas

Keywords

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