Nanostructured Bi Grown on Epitaxial Graphene/SiC

Tingwei Hu; Xin Hui; Xiaohe Zhang; Xiangtai Liu; Dayan Ma; Ran Wei; Kewei Xu; Fei Ma

doi:10.1021/acs.jpclett.8b02246

Nanostructured Bi Grown on Epitaxial Graphene/SiC

Tingwei Hu
, Xin Hui
, Xiaohe Zhang
, Xiangtai Liu
, Dayan Ma
, Ran Wei
, Kewei Xu
, Fei Ma

School of Materials Science and Engineering

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

18 Scopus citations

Abstract

Controllable growth of metal nanostructures on epitaxial graphene (EG) is particularly interesting and important for the applications in electric devices. Bi nanostructures on EG/SiC are fabricated through thermal decomposition of SiC and subsequent low-flux evaporation of Bi. The orientation, atomic structure, and thickness-dependent electronic states of Bi are investigated by scanning tunneling microscopy/spectroscopy. It is found that metallic Bi nanoflakes and nanorods prefer to grow on the SiC buffer layer region with higher diffusion barrier, but Bi nanoribbons are formed on regularly ordered EG. Although the thicker Bi nanoribbons of 11 monolayers on EG are still metallic, the thinner ones become semiconducting owing to the interfacial effect. This indicates that the electronic states and physical properties of Bi are substrate-dependent. The results are helpful for the design of Bi- and graphene-based electronic and spintronic devices.

Original language	English
Pages (from-to)	5679-5684
Number of pages	6
Journal	Journal of Physical Chemistry Letters
Volume	9
Issue number	19
DOIs	https://doi.org/10.1021/acs.jpclett.8b02246
State	Published - 4 Oct 2018

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title = "Nanostructured Bi Grown on Epitaxial Graphene/SiC",

abstract = "Controllable growth of metal nanostructures on epitaxial graphene (EG) is particularly interesting and important for the applications in electric devices. Bi nanostructures on EG/SiC are fabricated through thermal decomposition of SiC and subsequent low-flux evaporation of Bi. The orientation, atomic structure, and thickness-dependent electronic states of Bi are investigated by scanning tunneling microscopy/spectroscopy. It is found that metallic Bi nanoflakes and nanorods prefer to grow on the SiC buffer layer region with higher diffusion barrier, but Bi nanoribbons are formed on regularly ordered EG. Although the thicker Bi nanoribbons of 11 monolayers on EG are still metallic, the thinner ones become semiconducting owing to the interfacial effect. This indicates that the electronic states and physical properties of Bi are substrate-dependent. The results are helpful for the design of Bi- and graphene-based electronic and spintronic devices.",

author = "Tingwei Hu and Xin Hui and Xiaohe Zhang and Xiangtai Liu and Dayan Ma and Ran Wei and Kewei Xu and Fei Ma",

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doi = "10.1021/acs.jpclett.8b02246",

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T1 - Nanostructured Bi Grown on Epitaxial Graphene/SiC

AU - Hu, Tingwei

AU - Hui, Xin

AU - Zhang, Xiaohe

AU - Liu, Xiangtai

AU - Ma, Dayan

AU - Wei, Ran

AU - Xu, Kewei

AU - Ma, Fei

PY - 2018/10/4

Y1 - 2018/10/4

N2 - Controllable growth of metal nanostructures on epitaxial graphene (EG) is particularly interesting and important for the applications in electric devices. Bi nanostructures on EG/SiC are fabricated through thermal decomposition of SiC and subsequent low-flux evaporation of Bi. The orientation, atomic structure, and thickness-dependent electronic states of Bi are investigated by scanning tunneling microscopy/spectroscopy. It is found that metallic Bi nanoflakes and nanorods prefer to grow on the SiC buffer layer region with higher diffusion barrier, but Bi nanoribbons are formed on regularly ordered EG. Although the thicker Bi nanoribbons of 11 monolayers on EG are still metallic, the thinner ones become semiconducting owing to the interfacial effect. This indicates that the electronic states and physical properties of Bi are substrate-dependent. The results are helpful for the design of Bi- and graphene-based electronic and spintronic devices.

AB - Controllable growth of metal nanostructures on epitaxial graphene (EG) is particularly interesting and important for the applications in electric devices. Bi nanostructures on EG/SiC are fabricated through thermal decomposition of SiC and subsequent low-flux evaporation of Bi. The orientation, atomic structure, and thickness-dependent electronic states of Bi are investigated by scanning tunneling microscopy/spectroscopy. It is found that metallic Bi nanoflakes and nanorods prefer to grow on the SiC buffer layer region with higher diffusion barrier, but Bi nanoribbons are formed on regularly ordered EG. Although the thicker Bi nanoribbons of 11 monolayers on EG are still metallic, the thinner ones become semiconducting owing to the interfacial effect. This indicates that the electronic states and physical properties of Bi are substrate-dependent. The results are helpful for the design of Bi- and graphene-based electronic and spintronic devices.

UR - https://www.scopus.com/pages/publications/85053696808

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JO - Journal of Physical Chemistry Letters

JF - Journal of Physical Chemistry Letters

IS - 19

ER -

Nanostructured Bi Grown on Epitaxial Graphene/SiC

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