Observation of Moiré Patterns in Twisted Stacks of Bilayer Perovskite Oxide Nanomembranes with Various Lattice Symmetries

Jiaying Shen; Zhengang Dong; MingQun Qi; Yang Zhang; Chao Zhu; Zhenping Wu; Danfeng Li

doi:10.1021/acsami.2c14746

Observation of Moiré Patterns in Twisted Stacks of Bilayer Perovskite Oxide Nanomembranes with Various Lattice Symmetries

Jiaying Shen, Zhengang Dong, MingQun Qi, Yang Zhang, Chao Zhu, Zhenping Wu^*, Danfeng Li^*

^*Corresponding author for this work

Research output: Journal Publications and Reviews › RGC 21 - Publication in refereed journal › peer-review

22 Citations (Scopus)

Abstract

The design and fabrication of novel quantum devices in which exotic phenomena arise from moiré physics have sparked a new race of conceptualization and creation of artificial lattice structures. This interest is further extended to the research on thin-film transition metal oxides, with the goal of synthesizing twisted layers of perovskite oxides concurrently revealing moiré landscapes. By utilizing a sacrificial-layer-based approach, we show that such high-quality twisted bilayer oxide nanomembrane structures can be achieved. We observe atomic-scale distinct moiré patterns directly formed with different twist angles, and the symmetry-inequivalent nanomembranes can be stacked together to constitute new complex moiré configurations. This study paves the way to the construction of higher-order artificial oxide heterostructures based on different materials/symmetries and provides the materials foundation for investigating moiré-related electronic effects in an expanded selection of twisted oxide thin films.

Original language	English
Pages (from-to)	50386–50392
Journal	ACS Applied Materials and Interfaces
Volume	14
Issue number	44
Online published	26 Oct 2022
DOIs	https://doi.org/10.1021/acsami.2c14746
Publication status	Published - 9 Nov 2022

Funding

This work was supported by the National Natural Science Foundation of China (Grant 12074044), the Fund of State Key Laboratory of Information Photonics and Optical Communications (BUPT), the Fundamental Research Funds for the Central Universities (BUPT), and the Natural Science Foundation of Tianjin (Grant 18JCYBJC41500). Z.D. and D.L. acknowledge the support from the Research Grants Council of Hong Kong through General Research Fund (Grants CityU 11303619 and CityU 11309622), and City University of Hong Kong through Strategic Interdisciplinary Research Grant (7020016).

Research Keywords

freestanding perovskite nanomembranes
moiré lattice structures
transmission electron microscopy
twisted bilayer

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title = "Observation of Moir{\'e} Patterns in Twisted Stacks of Bilayer Perovskite Oxide Nanomembranes with Various Lattice Symmetries",

abstract = "The design and fabrication of novel quantum devices in which exotic phenomena arise from moir{\'e} physics have sparked a new race of conceptualization and creation of artificial lattice structures. This interest is further extended to the research on thin-film transition metal oxides, with the goal of synthesizing twisted layers of perovskite oxides concurrently revealing moir{\'e} landscapes. By utilizing a sacrificial-layer-based approach, we show that such high-quality twisted bilayer oxide nanomembrane structures can be achieved. We observe atomic-scale distinct moir{\'e} patterns directly formed with different twist angles, and the symmetry-inequivalent nanomembranes can be stacked together to constitute new complex moir{\'e} configurations. This study paves the way to the construction of higher-order artificial oxide heterostructures based on different materials/symmetries and provides the materials foundation for investigating moir{\'e}-related electronic effects in an expanded selection of twisted oxide thin films.",

keywords = "freestanding perovskite nanomembranes, moir{\'e} lattice structures, transmission electron microscopy, twisted bilayer",

author = "Jiaying Shen and Zhengang Dong and MingQun Qi and Yang Zhang and Chao Zhu and Zhenping Wu and Danfeng Li",

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Observation of Moiré Patterns in Twisted Stacks of Bilayer Perovskite Oxide Nanomembranes with Various Lattice Symmetries. / Shen, Jiaying; Dong, Zhengang; Qi, MingQun et al.
In: ACS Applied Materials and Interfaces, Vol. 14, No. 44, 09.11.2022, p. 50386–50392.

Research output: Journal Publications and Reviews › RGC 21 - Publication in refereed journal › peer-review

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AU - Shen, Jiaying

AU - Dong, Zhengang

AU - Qi, MingQun

AU - Zhang, Yang

AU - Zhu, Chao

AU - Wu, Zhenping

AU - Li, Danfeng

PY - 2022/11/9

Y1 - 2022/11/9

N2 - The design and fabrication of novel quantum devices in which exotic phenomena arise from moiré physics have sparked a new race of conceptualization and creation of artificial lattice structures. This interest is further extended to the research on thin-film transition metal oxides, with the goal of synthesizing twisted layers of perovskite oxides concurrently revealing moiré landscapes. By utilizing a sacrificial-layer-based approach, we show that such high-quality twisted bilayer oxide nanomembrane structures can be achieved. We observe atomic-scale distinct moiré patterns directly formed with different twist angles, and the symmetry-inequivalent nanomembranes can be stacked together to constitute new complex moiré configurations. This study paves the way to the construction of higher-order artificial oxide heterostructures based on different materials/symmetries and provides the materials foundation for investigating moiré-related electronic effects in an expanded selection of twisted oxide thin films.

AB - The design and fabrication of novel quantum devices in which exotic phenomena arise from moiré physics have sparked a new race of conceptualization and creation of artificial lattice structures. This interest is further extended to the research on thin-film transition metal oxides, with the goal of synthesizing twisted layers of perovskite oxides concurrently revealing moiré landscapes. By utilizing a sacrificial-layer-based approach, we show that such high-quality twisted bilayer oxide nanomembrane structures can be achieved. We observe atomic-scale distinct moiré patterns directly formed with different twist angles, and the symmetry-inequivalent nanomembranes can be stacked together to constitute new complex moiré configurations. This study paves the way to the construction of higher-order artificial oxide heterostructures based on different materials/symmetries and provides the materials foundation for investigating moiré-related electronic effects in an expanded selection of twisted oxide thin films.

KW - freestanding perovskite nanomembranes

KW - moiré lattice structures

KW - transmission electron microscopy

KW - twisted bilayer

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ER -

Observation of Moiré Patterns in Twisted Stacks of Bilayer Perovskite Oxide Nanomembranes with Various Lattice Symmetries

Abstract

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GRF: Flexible Nano-mechanical Approaches to Unravelling the Intertwined Orders in Paradigm Oxide Superconductors

GRF: Valley Current Multiplexer in Bilayer Graphene: A Direct Measurement of Anomalous Velocity

Cite this

Observation of Moiré Patterns in Twisted Stacks of Bilayer Perovskite Oxide Nanomembranes with Various Lattice Symmetries

Abstract

Funding

Research Keywords

Access Output

Other Access Options

Permanent Link

Other Files and Links

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Projects

GRF: Flexible Nano-mechanical Approaches to Unravelling the Intertwined Orders in Paradigm Oxide Superconductors

GRF: Valley Current Multiplexer in Bilayer Graphene: A Direct Measurement of Anomalous Velocity

Cite this