Orientation-tuning in self-assembled heterostructures induced by a buffer layer

Yuanmin Zhu; Pingping Liu; Rong Yu; Ying Hui Hsieh; Dan Ke; Ying Hao Chu; Qian Zhan

doi:10.1039/c3nr06664a

Orientation-tuning in self-assembled heterostructures induced by a buffer layer

Yuanmin Zhu
, Pingping Liu
, Rong Yu
, Ying Hui Hsieh
, Dan Ke
, Ying Hao Chu
, Qian Zhan^*

^*此作品的通讯作者

University of Science and Technology Beijing
Tsinghua University
National Yang Ming Chiao Tung University
Academia Sinica - Institute of Physics

科研成果: 期刊稿件 › 文章 › 同行评审

18 引用（Scopus）

摘要

Anisotropic nano-plate structures in self-assembled perovskite-spinel thin films, BiFeO₃-NiFe₂O₄ and BiFeO ₃-CoFe₂O₄, which were deposited on (001) _c SrRuO₃/SrTiO₃ and DyScO₃ substrates, respectively, have been demonstrated using transmission electron microscopy combined with strain analysis. Unlike the unitary cube-on-cube orientation relationship reported widely, the growth direction of the CoFe ₂O₄ and NiFe₂O₄ plates was tuned to [011]_c while the BiFeO₃ matrix kept [001]_c in both systems. In particular, a thin stress-sensitive BiFeO₃ buffer layer between the spinel nanostructure and the substrate was introduced for providing a complex strain state in both film systems. The novel orientation tuning and the pattern configuration of the heterostructures are mainly attributed to the strain imposed on the films and the anisotropic ledge growth mechanism of spinels. This journal is

源语言	英语
页（从-至）	5126-5131
页数	6
期刊	Nanoscale
卷	6
期	10
DOI	https://doi.org/10.1039/c3nr06664a
出版状态	已出版 - 21 5月 2014
已对外发布	是

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abstract = "Anisotropic nano-plate structures in self-assembled perovskite-spinel thin films, BiFeO3-NiFe2O4 and BiFeO 3-CoFe2O4, which were deposited on (001) c SrRuO3/SrTiO3 and DyScO3 substrates, respectively, have been demonstrated using transmission electron microscopy combined with strain analysis. Unlike the unitary cube-on-cube orientation relationship reported widely, the growth direction of the CoFe 2O4 and NiFe2O4 plates was tuned to [011]c while the BiFeO3 matrix kept [001]c in both systems. In particular, a thin stress-sensitive BiFeO3 buffer layer between the spinel nanostructure and the substrate was introduced for providing a complex strain state in both film systems. The novel orientation tuning and the pattern configuration of the heterostructures are mainly attributed to the strain imposed on the films and the anisotropic ledge growth mechanism of spinels. This journal is",

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AU - Zhu, Yuanmin

AU - Liu, Pingping

AU - Yu, Rong

AU - Hsieh, Ying Hui

AU - Ke, Dan

AU - Chu, Ying Hao

AU - Zhan, Qian

PY - 2014/5/21

Y1 - 2014/5/21

N2 - Anisotropic nano-plate structures in self-assembled perovskite-spinel thin films, BiFeO3-NiFe2O4 and BiFeO 3-CoFe2O4, which were deposited on (001) c SrRuO3/SrTiO3 and DyScO3 substrates, respectively, have been demonstrated using transmission electron microscopy combined with strain analysis. Unlike the unitary cube-on-cube orientation relationship reported widely, the growth direction of the CoFe 2O4 and NiFe2O4 plates was tuned to [011]c while the BiFeO3 matrix kept [001]c in both systems. In particular, a thin stress-sensitive BiFeO3 buffer layer between the spinel nanostructure and the substrate was introduced for providing a complex strain state in both film systems. The novel orientation tuning and the pattern configuration of the heterostructures are mainly attributed to the strain imposed on the films and the anisotropic ledge growth mechanism of spinels. This journal is

AB - Anisotropic nano-plate structures in self-assembled perovskite-spinel thin films, BiFeO3-NiFe2O4 and BiFeO 3-CoFe2O4, which were deposited on (001) c SrRuO3/SrTiO3 and DyScO3 substrates, respectively, have been demonstrated using transmission electron microscopy combined with strain analysis. Unlike the unitary cube-on-cube orientation relationship reported widely, the growth direction of the CoFe 2O4 and NiFe2O4 plates was tuned to [011]c while the BiFeO3 matrix kept [001]c in both systems. In particular, a thin stress-sensitive BiFeO3 buffer layer between the spinel nanostructure and the substrate was introduced for providing a complex strain state in both film systems. The novel orientation tuning and the pattern configuration of the heterostructures are mainly attributed to the strain imposed on the films and the anisotropic ledge growth mechanism of spinels. This journal is

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Orientation-tuning in self-assembled heterostructures induced by a buffer layer

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