Direct growth of single-metal-atom chains

Shasha Guo; Jiecai Fu; Peikun Zhang; Chao Zhu; Heming Yao; Manzhang Xu; Boxing An; Xingli Wang; Bijun Tang; Ya Deng; Teddy Salim; Hongchu Du; Rafal E. Dunin-Borkowski; Mingquan Xu; Wu Zhou; Beng Kang Tay; Chao Zhu; Yanchao He; Mario Hofmann; Ya Ping Hsieh; Wanlin Guo; Michael Ng; Chunlin Jia; Zhuhua Zhang; Yongmin He; Zheng Liu

doi:10.1038/s44160-022-00038-z

Direct growth of single-metal-atom chains

Shasha Guo, Jiecai Fu, Peikun Zhang, Chao Zhu, Heming Yao, Manzhang Xu, Boxing An, Xingli Wang, Bijun Tang, Ya Deng, Teddy Salim, Hongchu Du, Rafal E. Dunin-Borkowski, Mingquan Xu, Wu Zhou, Beng Kang Tay, Chao Zhu, Yanchao He, Mario Hofmann, Ya Ping HsiehWanlin Guo, Michael Ng, Chunlin Jia, Zhuhua Zhang, Yongmin He, Zheng Liu

科研成果: 期刊稿件 › 文章 › 同行评审

26 引用（Scopus）

摘要

Single-metal-atom chains (SMACs), as the smallest one-dimensional structure, have intriguing physical and chemical properties. Although several SMACs have been realized so far, their controllable fabrication remains challenging due to the need to arrange single atoms in an atomically precise manner. Here we develop a chemical vapour co-deposition method to construct a wafer-scale network of platinum SMACs in atom-thin films. The obtained atomic chains possess an average length of up to ~17 nm and a high density of over 10 wt%. Interestingly, as a consequence of the electronic delocalization of platinum atoms along the chain, this atomically coherent one-dimensional channel delivers a metallic behaviour, as revealed by electronic measurements, first-principles calculations and complex network modelling. Our strategy is potentially extendable to other transition metals such as cobalt, enriching the toolbox for manufacturing SMACs and paving the way for the fundamental study of one-dimensional systems and the development of devices comprising monoatomic chains. [Figure not available: see fulltext.]

源语言	英语
页（从-至）	245-253
页数	9
期刊	Nature Synthesis
卷	1
期	3
DOI	https://doi.org/10.1038/s44160-022-00038-z
出版状态	已出版 - 3月 2022
已对外发布	是

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@article{a666c769c7a54305b1c603cc368622ae,

title = "Direct growth of single-metal-atom chains",

abstract = "Single-metal-atom chains (SMACs), as the smallest one-dimensional structure, have intriguing physical and chemical properties. Although several SMACs have been realized so far, their controllable fabrication remains challenging due to the need to arrange single atoms in an atomically precise manner. Here we develop a chemical vapour co-deposition method to construct a wafer-scale network of platinum SMACs in atom-thin films. The obtained atomic chains possess an average length of up to ~17 nm and a high density of over 10 wt%. Interestingly, as a consequence of the electronic delocalization of platinum atoms along the chain, this atomically coherent one-dimensional channel delivers a metallic behaviour, as revealed by electronic measurements, first-principles calculations and complex network modelling. Our strategy is potentially extendable to other transition metals such as cobalt, enriching the toolbox for manufacturing SMACs and paving the way for the fundamental study of one-dimensional systems and the development of devices comprising monoatomic chains. [Figure not available: see fulltext.]",

author = "Shasha Guo and Jiecai Fu and Peikun Zhang and Chao Zhu and Heming Yao and Manzhang Xu and Boxing An and Xingli Wang and Bijun Tang and Ya Deng and Teddy Salim and Hongchu Du and Dunin-Borkowski, {Rafal E.} and Mingquan Xu and Wu Zhou and Tay, {Beng Kang} and Chao Zhu and Yanchao He and Mario Hofmann and Hsieh, {Ya Ping} and Wanlin Guo and Michael Ng and Chunlin Jia and Zhuhua Zhang and Yongmin He and Zheng Liu",

note = "Publisher Copyright: {\textcopyright} 2022, The Author(s), under exclusive licence to Springer Nature Limited.",

year = "2022",

month = mar,

doi = "10.1038/s44160-022-00038-z",

language = "英语",

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Guo, S, Fu, J, Zhang, P, Zhu, C, Yao, H, Xu, M, An, B, Wang, X, Tang, B, Deng, Y, Salim, T, Du, H, Dunin-Borkowski, RE, Xu, M, Zhou, W, Tay, BK, Zhu, C, He, Y, Hofmann, M, Hsieh, YP, Guo, W, Ng, M, Jia, C, Zhang, Z, He, Y & Liu, Z 2022, 'Direct growth of single-metal-atom chains', Nature Synthesis, 卷 1, 号码 3, 页码 245-253. https://doi.org/10.1038/s44160-022-00038-z

TY - JOUR

T1 - Direct growth of single-metal-atom chains

AU - Guo, Shasha

AU - Fu, Jiecai

AU - Zhang, Peikun

AU - Zhu, Chao

AU - Yao, Heming

AU - Xu, Manzhang

AU - An, Boxing

AU - Wang, Xingli

AU - Tang, Bijun

AU - Deng, Ya

AU - Salim, Teddy

AU - Du, Hongchu

AU - Dunin-Borkowski, Rafal E.

AU - Xu, Mingquan

AU - Zhou, Wu

AU - Tay, Beng Kang

AU - Zhu, Chao

AU - He, Yanchao

AU - Hofmann, Mario

AU - Hsieh, Ya Ping

AU - Guo, Wanlin

AU - Ng, Michael

AU - Jia, Chunlin

AU - Zhang, Zhuhua

AU - He, Yongmin

AU - Liu, Zheng

PY - 2022/3

Y1 - 2022/3

N2 - Single-metal-atom chains (SMACs), as the smallest one-dimensional structure, have intriguing physical and chemical properties. Although several SMACs have been realized so far, their controllable fabrication remains challenging due to the need to arrange single atoms in an atomically precise manner. Here we develop a chemical vapour co-deposition method to construct a wafer-scale network of platinum SMACs in atom-thin films. The obtained atomic chains possess an average length of up to ~17 nm and a high density of over 10 wt%. Interestingly, as a consequence of the electronic delocalization of platinum atoms along the chain, this atomically coherent one-dimensional channel delivers a metallic behaviour, as revealed by electronic measurements, first-principles calculations and complex network modelling. Our strategy is potentially extendable to other transition metals such as cobalt, enriching the toolbox for manufacturing SMACs and paving the way for the fundamental study of one-dimensional systems and the development of devices comprising monoatomic chains. [Figure not available: see fulltext.]

AB - Single-metal-atom chains (SMACs), as the smallest one-dimensional structure, have intriguing physical and chemical properties. Although several SMACs have been realized so far, their controllable fabrication remains challenging due to the need to arrange single atoms in an atomically precise manner. Here we develop a chemical vapour co-deposition method to construct a wafer-scale network of platinum SMACs in atom-thin films. The obtained atomic chains possess an average length of up to ~17 nm and a high density of over 10 wt%. Interestingly, as a consequence of the electronic delocalization of platinum atoms along the chain, this atomically coherent one-dimensional channel delivers a metallic behaviour, as revealed by electronic measurements, first-principles calculations and complex network modelling. Our strategy is potentially extendable to other transition metals such as cobalt, enriching the toolbox for manufacturing SMACs and paving the way for the fundamental study of one-dimensional systems and the development of devices comprising monoatomic chains. [Figure not available: see fulltext.]

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DO - 10.1038/s44160-022-00038-z

M3 - 文章

AN - SCOPUS:85138629873

SN - 2731-0582

VL - 1

SP - 245

EP - 253

JO - Nature Synthesis

JF - Nature Synthesis

IS - 3

ER -

Direct growth of single-metal-atom chains

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