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Issue 6, 2020
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3D architectures of single-crystalline complex oxides

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Controlling the structure of a material over a wide range of scales has been extensively pursued because the structure dictates its function. Here, we explore the formation of 3D structures at almost a millimetre scale using single-crystal complex oxides, which has been challenging because of the brittle nature of oxides. Our scheme is to release epitaxial oxide thin film heterostructures from the rigid substrate in order to utilise the elastic epitaxial strain as a driving force for self-shaping the flexible free-standing membrane in a controlled manner. Using an epitaxial free-standing LaAlO3/SrTiO3 membrane as a model system, we were able to create various 3D forms, such as cylindrically-rolled, spherically-bent, and helically-twisted structures, where the inversion-symmetry is broken by the strain gradient via flexoelectric effects. Our results will provide opportunities not only to broaden the application of functional oxides toward flexible electronics, but also to discover new functionalities driven by 3D architectures at various scales.

Graphical abstract: 3D architectures of single-crystalline complex oxides

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Supplementary files

Article information

19 Feb 2020
07 Apr 2020
First published
08 Apr 2020

Mater. Horiz., 2020,7, 1552-1557
Article type

3D architectures of single-crystalline complex oxides

S. Kim, H. Choi, G. Lee, C. J. Roh, I. Jung, S. Y. Jung, R. Ning, S. O. Won, H. J. Chang, J. S. Lee, S. K. Kim, J. Kim, C. Kang, J. Choi and S. Baek, Mater. Horiz., 2020, 7, 1552
DOI: 10.1039/D0MH00292E

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