The Pentagonal Nature of Self-Assembled Silicon Chains and Magic Clusters on Ag(110)

Shaoxiang Sheng; Runze Ma; Jiang Bin Wu; Wenbin Li; Longjuan Kong; Xin Cong; Duanyun Cao; Wenqi Hu; Jian Gou; Jun Wei Luo; Peng Cheng; Ping Heng Tan; Ying Jiang; Lan Chen; Kehui Wu

doi:10.1021/acs.nanolett.8b00289

The Pentagonal Nature of Self-Assembled Silicon Chains and Magic Clusters on Ag(110)

Shaoxiang Sheng, Runze Ma, Jiang Bin Wu, Wenbin Li, Longjuan Kong, Xin Cong, Duanyun Cao, Wenqi Hu, Jian Gou, Jun Wei Luo, Peng Cheng, Ping Heng Tan^*, Ying Jiang, Lan Chen, Kehui Wu

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59 引用（Scopus）

摘要

The atomic structures of self-assembled silicon nanoribbons and magic clusters on Ag(110) substrate have been studied by high-resolution noncontact atomic force microscopy (nc-AFM) and tip-enhanced Raman spectroscopy (TERS). Pentagon-ring structures in Si nanoribbons and clusters have been directly visualized. Moreover, the vibrational fingerprints of individual Si nanoribbon and cluster retrieved by subnanometer resolution TERS confirm the pentagonal nature of both Si nanoribbons and clusters. This work demonstrates that Si pentagon can be an important element in building silicon nanostructures, which may find important applications for future nanoelectronic devices based on silicon.

源语言	英语
页（从-至）	2937-2942
页数	6
期刊	Nano Letters
卷	18
期	5
DOI	https://doi.org/10.1021/acs.nanolett.8b00289
出版状态	已出版 - 9 5月 2018
已对外发布	是

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title = "The Pentagonal Nature of Self-Assembled Silicon Chains and Magic Clusters on Ag(110)",

abstract = "The atomic structures of self-assembled silicon nanoribbons and magic clusters on Ag(110) substrate have been studied by high-resolution noncontact atomic force microscopy (nc-AFM) and tip-enhanced Raman spectroscopy (TERS). Pentagon-ring structures in Si nanoribbons and clusters have been directly visualized. Moreover, the vibrational fingerprints of individual Si nanoribbon and cluster retrieved by subnanometer resolution TERS confirm the pentagonal nature of both Si nanoribbons and clusters. This work demonstrates that Si pentagon can be an important element in building silicon nanostructures, which may find important applications for future nanoelectronic devices based on silicon.",

keywords = "Noncontact atomic force microscopy (nc-AFM), magic cluster, pentagon silicon chains, tip-enhanced Raman spectroscopy (TERS)",

author = "Shaoxiang Sheng and Runze Ma and Wu, {Jiang Bin} and Wenbin Li and Longjuan Kong and Xin Cong and Duanyun Cao and Wenqi Hu and Jian Gou and Luo, {Jun Wei} and Peng Cheng and Tan, {Ping Heng} and Ying Jiang and Lan Chen and Kehui Wu",

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doi = "10.1021/acs.nanolett.8b00289",

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AU - Sheng, Shaoxiang

AU - Ma, Runze

AU - Wu, Jiang Bin

AU - Li, Wenbin

AU - Kong, Longjuan

AU - Cong, Xin

AU - Cao, Duanyun

AU - Hu, Wenqi

AU - Gou, Jian

AU - Luo, Jun Wei

AU - Cheng, Peng

AU - Tan, Ping Heng

AU - Jiang, Ying

AU - Chen, Lan

AU - Wu, Kehui

PY - 2018/5/9

Y1 - 2018/5/9

N2 - The atomic structures of self-assembled silicon nanoribbons and magic clusters on Ag(110) substrate have been studied by high-resolution noncontact atomic force microscopy (nc-AFM) and tip-enhanced Raman spectroscopy (TERS). Pentagon-ring structures in Si nanoribbons and clusters have been directly visualized. Moreover, the vibrational fingerprints of individual Si nanoribbon and cluster retrieved by subnanometer resolution TERS confirm the pentagonal nature of both Si nanoribbons and clusters. This work demonstrates that Si pentagon can be an important element in building silicon nanostructures, which may find important applications for future nanoelectronic devices based on silicon.

AB - The atomic structures of self-assembled silicon nanoribbons and magic clusters on Ag(110) substrate have been studied by high-resolution noncontact atomic force microscopy (nc-AFM) and tip-enhanced Raman spectroscopy (TERS). Pentagon-ring structures in Si nanoribbons and clusters have been directly visualized. Moreover, the vibrational fingerprints of individual Si nanoribbon and cluster retrieved by subnanometer resolution TERS confirm the pentagonal nature of both Si nanoribbons and clusters. This work demonstrates that Si pentagon can be an important element in building silicon nanostructures, which may find important applications for future nanoelectronic devices based on silicon.

KW - Noncontact atomic force microscopy (nc-AFM)

KW - magic cluster

KW - pentagon silicon chains

KW - tip-enhanced Raman spectroscopy (TERS)

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The Pentagonal Nature of Self-Assembled Silicon Chains and Magic Clusters on Ag(110)

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