Structural and nanomechanical properties of a-plane ZnO thin films deposited under different oxygen partial pressures

Sheng Rui Jian; Hou Guang Chen; Guo Ju Chen; Jason S.C. Jang; Jenh Yih Juang

doi:10.1016/j.cap.2011.11.018

Structural and nanomechanical properties of a-plane ZnO thin films deposited under different oxygen partial pressures

Sheng Rui Jian, Hou Guang Chen, Guo Ju Chen, Jason S.C. Jang, Jenh Yih Juang

Graduate Institute of Materials Science and Engineering

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

23 Scopus citations

Abstract

The effects of O ₂ partial pressure during RF magnetron sputtering on the structural and nanomechanical properties of a-plane ZnO thin films were investigated by using X-ray diffraction (XRD) and nanoindentation techniques. The XRD and the transmission electron microscopy (TEM) selected area diffraction results indicate that the epitaxial relationship between ZnO thin films and Al ₂O ₃ substrates is ZnO (1120)//Al ₂O ₃ (1102). The average values of the hardness and Young's modulus of the a-plane ZnO films were found to decrease with increasing oxygen partial pressure. The cross-sectional TEM revealing the localized plastic deformation of ZnO thin films beneath the Berkovich indenter, indicating the prominent role played by the threading dislocations in the film deformation behavior. At higher indentation loadings, the sapphire substrate exhibits extensive deformation with narrow slip bands appearing on {0001} plane. However, no evidence of pressure-induced phase transformation, as well as cracking and/or delamination phenomena at the film-substrate interface was observed.

Original language	English
Pages (from-to)	849-853
Number of pages	5
Journal	Current Applied Physics
Volume	12
Issue number	3
DOIs	https://doi.org/10.1016/j.cap.2011.11.018
State	Published - May 2012

Keywords

Cross-sectional transmission electron microscopy
Focused ion beam
Nanoindentation
a-Plane ZnO thin film

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title = "Structural and nanomechanical properties of a-plane ZnO thin films deposited under different oxygen partial pressures",

abstract = "The effects of O 2 partial pressure during RF magnetron sputtering on the structural and nanomechanical properties of a-plane ZnO thin films were investigated by using X-ray diffraction (XRD) and nanoindentation techniques. The XRD and the transmission electron microscopy (TEM) selected area diffraction results indicate that the epitaxial relationship between ZnO thin films and Al 2O 3 substrates is ZnO (1120)//Al 2O 3 (1102). The average values of the hardness and Young's modulus of the a-plane ZnO films were found to decrease with increasing oxygen partial pressure. The cross-sectional TEM revealing the localized plastic deformation of ZnO thin films beneath the Berkovich indenter, indicating the prominent role played by the threading dislocations in the film deformation behavior. At higher indentation loadings, the sapphire substrate exhibits extensive deformation with narrow slip bands appearing on {0001} plane. However, no evidence of pressure-induced phase transformation, as well as cracking and/or delamination phenomena at the film-substrate interface was observed.",

keywords = "Cross-sectional transmission electron microscopy, Focused ion beam, Nanoindentation, a-Plane ZnO thin film",

author = "Jian, {Sheng Rui} and Chen, {Hou Guang} and Chen, {Guo Ju} and Jang, {Jason S.C.} and Juang, {Jenh Yih}",

note = "Funding Information: This work was partially supported by the National Science Council of Taiwan , under Grant Nos.: NSC 97-2112-M-214-002-MY2 , NSC99-2112-M-214-001 and NSC100-2221-E-214-024 . JYJ is partially supported by the National Science Council and the MOE-ATU program operated at NCTU. Author likes to thank Dr. Y.-S. Lai and Dr. P.-F. Yang for their useful discussion and technical supports.",

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T1 - Structural and nanomechanical properties of a-plane ZnO thin films deposited under different oxygen partial pressures

AU - Jian, Sheng Rui

AU - Chen, Hou Guang

AU - Chen, Guo Ju

AU - Jang, Jason S.C.

AU - Juang, Jenh Yih

N1 - Funding Information: This work was partially supported by the National Science Council of Taiwan , under Grant Nos.: NSC 97-2112-M-214-002-MY2 , NSC99-2112-M-214-001 and NSC100-2221-E-214-024 . JYJ is partially supported by the National Science Council and the MOE-ATU program operated at NCTU. Author likes to thank Dr. Y.-S. Lai and Dr. P.-F. Yang for their useful discussion and technical supports.

PY - 2012/5

Y1 - 2012/5

N2 - The effects of O 2 partial pressure during RF magnetron sputtering on the structural and nanomechanical properties of a-plane ZnO thin films were investigated by using X-ray diffraction (XRD) and nanoindentation techniques. The XRD and the transmission electron microscopy (TEM) selected area diffraction results indicate that the epitaxial relationship between ZnO thin films and Al 2O 3 substrates is ZnO (1120)//Al 2O 3 (1102). The average values of the hardness and Young's modulus of the a-plane ZnO films were found to decrease with increasing oxygen partial pressure. The cross-sectional TEM revealing the localized plastic deformation of ZnO thin films beneath the Berkovich indenter, indicating the prominent role played by the threading dislocations in the film deformation behavior. At higher indentation loadings, the sapphire substrate exhibits extensive deformation with narrow slip bands appearing on {0001} plane. However, no evidence of pressure-induced phase transformation, as well as cracking and/or delamination phenomena at the film-substrate interface was observed.

AB - The effects of O 2 partial pressure during RF magnetron sputtering on the structural and nanomechanical properties of a-plane ZnO thin films were investigated by using X-ray diffraction (XRD) and nanoindentation techniques. The XRD and the transmission electron microscopy (TEM) selected area diffraction results indicate that the epitaxial relationship between ZnO thin films and Al 2O 3 substrates is ZnO (1120)//Al 2O 3 (1102). The average values of the hardness and Young's modulus of the a-plane ZnO films were found to decrease with increasing oxygen partial pressure. The cross-sectional TEM revealing the localized plastic deformation of ZnO thin films beneath the Berkovich indenter, indicating the prominent role played by the threading dislocations in the film deformation behavior. At higher indentation loadings, the sapphire substrate exhibits extensive deformation with narrow slip bands appearing on {0001} plane. However, no evidence of pressure-induced phase transformation, as well as cracking and/or delamination phenomena at the film-substrate interface was observed.

KW - Cross-sectional transmission electron microscopy

KW - Focused ion beam

KW - Nanoindentation

KW - a-Plane ZnO thin film

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DO - 10.1016/j.cap.2011.11.018

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VL - 12

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EP - 853

JO - Current Applied Physics

JF - Current Applied Physics

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ER -

Structural and nanomechanical properties of a-plane ZnO thin films deposited under different oxygen partial pressures

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