Quasi-Periodic Growth of One-Dimensional Copper Boride on Cu(110)

Yuki Tsujikawa; Xiaoni Zhang; Kazuki Yamaguchi; Masahiro Haze; Takeru Nakashima; Arpita Varadwaj; Yusuke Sato; Masafumi Horio; Yukio Hasegawa; Fumio Komori; Masaki Oshikawa; Masato Kotsugi; Yasunobu Ando; Takahiro Kondo; Iwao Matsuda

doi:10.1021/acs.nanolett.3c03861

Quasi-Periodic Growth of One-Dimensional Copper Boride on Cu(110)

Yuki Tsujikawa, Xiaoni Zhang, Kazuki Yamaguchi, Masahiro Haze, Takeru Nakashima, Arpita Varadwaj, Yusuke Sato, Masafumi Horio, Yukio Hasegawa, Fumio Komori, Masaki Oshikawa, Masato Kotsugi, Yasunobu Ando, Takahiro Kondo, Iwao Matsuda

Department of Materials Science and Technology

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

4 Citations (Scopus)

Abstract

An unexplored material of copper boride has been realized recently in two-dimensional form at a (111) surface of the fcc copper crystal. Here, one-dimensional (1-D) boron growth was observed on the Cu(110) surface, as probed by atomically resolved scanning probe microscopy. The 1-D copper boride was composed of quasi-periodic atomic chains periodically aligned parallel to each other, as confirmed by Fourier transform analysis. The 1-D growth unexpectedly proceeded across surface steps in a self-assembled manner and extended over several 100 nm. The long-range formation of a 1-D quasi-periodic structure on a surface has been theoretically modeled as a 1-D quasi-crystal and the predicted conditions matched the structural parameters obtained by the experimental work here. The quasi-periodic 1-D copper boride system enabled a way to examine 1-D quasi-crystallinity on an actual material.

Original language	English
Pages (from-to)	1160-1167
Number of pages	8
Journal	Nano Letters
Volume	24
Issue number	4
DOIs	https://doi.org/10.1021/acs.nanolett.3c03861
Publication status	Published - 31 Jan 2024

Keywords

Cu(110)
boride
boron
one dimension
quasi-periodicity

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10.1021/acs.nanolett.3c03861

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title = "Quasi-Periodic Growth of One-Dimensional Copper Boride on Cu(110)",

abstract = "An unexplored material of copper boride has been realized recently in two-dimensional form at a (111) surface of the fcc copper crystal. Here, one-dimensional (1-D) boron growth was observed on the Cu(110) surface, as probed by atomically resolved scanning probe microscopy. The 1-D copper boride was composed of quasi-periodic atomic chains periodically aligned parallel to each other, as confirmed by Fourier transform analysis. The 1-D growth unexpectedly proceeded across surface steps in a self-assembled manner and extended over several 100 nm. The long-range formation of a 1-D quasi-periodic structure on a surface has been theoretically modeled as a 1-D quasi-crystal and the predicted conditions matched the structural parameters obtained by the experimental work here. The quasi-periodic 1-D copper boride system enabled a way to examine 1-D quasi-crystallinity on an actual material.",

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author = "Yuki Tsujikawa and Xiaoni Zhang and Kazuki Yamaguchi and Masahiro Haze and Takeru Nakashima and Arpita Varadwaj and Yusuke Sato and Masafumi Horio and Yukio Hasegawa and Fumio Komori and Masaki Oshikawa and Masato Kotsugi and Yasunobu Ando and Takahiro Kondo and Iwao Matsuda",

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doi = "10.1021/acs.nanolett.3c03861",

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AU - Tsujikawa, Yuki

AU - Zhang, Xiaoni

AU - Yamaguchi, Kazuki

AU - Haze, Masahiro

AU - Nakashima, Takeru

AU - Varadwaj, Arpita

AU - Sato, Yusuke

AU - Horio, Masafumi

AU - Hasegawa, Yukio

AU - Komori, Fumio

AU - Oshikawa, Masaki

AU - Kotsugi, Masato

AU - Ando, Yasunobu

AU - Kondo, Takahiro

AU - Matsuda, Iwao

PY - 2024/1/31

Y1 - 2024/1/31

N2 - An unexplored material of copper boride has been realized recently in two-dimensional form at a (111) surface of the fcc copper crystal. Here, one-dimensional (1-D) boron growth was observed on the Cu(110) surface, as probed by atomically resolved scanning probe microscopy. The 1-D copper boride was composed of quasi-periodic atomic chains periodically aligned parallel to each other, as confirmed by Fourier transform analysis. The 1-D growth unexpectedly proceeded across surface steps in a self-assembled manner and extended over several 100 nm. The long-range formation of a 1-D quasi-periodic structure on a surface has been theoretically modeled as a 1-D quasi-crystal and the predicted conditions matched the structural parameters obtained by the experimental work here. The quasi-periodic 1-D copper boride system enabled a way to examine 1-D quasi-crystallinity on an actual material.

AB - An unexplored material of copper boride has been realized recently in two-dimensional form at a (111) surface of the fcc copper crystal. Here, one-dimensional (1-D) boron growth was observed on the Cu(110) surface, as probed by atomically resolved scanning probe microscopy. The 1-D copper boride was composed of quasi-periodic atomic chains periodically aligned parallel to each other, as confirmed by Fourier transform analysis. The 1-D growth unexpectedly proceeded across surface steps in a self-assembled manner and extended over several 100 nm. The long-range formation of a 1-D quasi-periodic structure on a surface has been theoretically modeled as a 1-D quasi-crystal and the predicted conditions matched the structural parameters obtained by the experimental work here. The quasi-periodic 1-D copper boride system enabled a way to examine 1-D quasi-crystallinity on an actual material.

KW - Cu(110)

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KW - boron

KW - one dimension

KW - quasi-periodicity

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SP - 1160

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JO - Nano Letters

JF - Nano Letters

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ER -

Quasi-Periodic Growth of One-Dimensional Copper Boride on Cu(110)

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