Novel Carbon Nanotubes Rolled from 6,6,12-Graphyne: Double Dirac Points in 1D Material

Dong Chun Yang; Ran Jia; Yu Wang; Chui Peng Kong; Jian Wang; Yuchen Ma; Roberts I. Eglitis; Hong Xing Zhang

doi:10.1021/acs.jpcc.7b01687

Novel Carbon Nanotubes Rolled from 6,6,12-Graphyne: Double Dirac Points in 1D Material

Dong Chun Yang
, Ran Jia^*
, Yu Wang
, Chui Peng Kong
, Jian Wang
, Yuchen Ma
, Roberts I. Eglitis
, Hong Xing Zhang

^*Corresponding author for this work

Laboratory of Computer Modeling of Electronic Structure of Solids, Institute of Solid State Physics

Jilin University
Shandong University

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

34 Citations (Scopus)

Abstract

Two kinds of novel carbon nanotubes, namely, (N, 0) and (0, N) 6,6,12-graphyne nanotubes (6,6,12-GNTs), are constructed by rolling up the rectangular 6,6,12-graphyne sheets along two different sides into cylinders. The mechanical and electronic properties of 6,6,12-GNTs with varied N from 3 to 20 are investigated by using density functional theory. Unlike the single-wall carbon nanotubes, the Young's moduli of 6,6,12-GNTs do not remain constant in the case of (N, 0), but the (0, N) tubes possess almost the same one around 0.32 TPa. The band structures and density of states are also exhibited in this work. When the tube sizes N are bigger than four, Dirac points appear at Fermi level in the band maps of (N, 0) type 6,6,12-GNTs following an even-odd law, while the (0, N) tubes are narrow-gap semiconductors with tiny band gaps between 5.5 and 247.3 meV.

Original language	English
Pages (from-to)	14835-14844
Number of pages	10
Journal	Journal of Physical Chemistry C
Volume	121
Issue number	27
DOIs	https://doi.org/10.1021/acs.jpcc.7b01687
Publication status	Published - 13 Jul 2017

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@article{e767e5e22ac74a57bec346f38d1db88c,

title = "Novel Carbon Nanotubes Rolled from 6,6,12-Graphyne: Double Dirac Points in 1D Material",

abstract = "Two kinds of novel carbon nanotubes, namely, (N, 0) and (0, N) 6,6,12-graphyne nanotubes (6,6,12-GNTs), are constructed by rolling up the rectangular 6,6,12-graphyne sheets along two different sides into cylinders. The mechanical and electronic properties of 6,6,12-GNTs with varied N from 3 to 20 are investigated by using density functional theory. Unlike the single-wall carbon nanotubes, the Young's moduli of 6,6,12-GNTs do not remain constant in the case of (N, 0), but the (0, N) tubes possess almost the same one around 0.32 TPa. The band structures and density of states are also exhibited in this work. When the tube sizes N are bigger than four, Dirac points appear at Fermi level in the band maps of (N, 0) type 6,6,12-GNTs following an even-odd law, while the (0, N) tubes are narrow-gap semiconductors with tiny band gaps between 5.5 and 247.3 meV.",

author = "Yang, \{Dong Chun\} and Ran Jia and Yu Wang and Kong, \{Chui Peng\} and Jian Wang and Yuchen Ma and Eglitis, \{Roberts I.\} and Zhang, \{Hong Xing\}",

note = "Publisher Copyright: {\textcopyright} 2017 American Chemical Society.",

year = "2017",

month = jul,

day = "13",

doi = "10.1021/acs.jpcc.7b01687",

language = "English",

volume = "121",

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T1 - Novel Carbon Nanotubes Rolled from 6,6,12-Graphyne

T2 - Double Dirac Points in 1D Material

AU - Yang, Dong Chun

AU - Jia, Ran

AU - Wang, Yu

AU - Kong, Chui Peng

AU - Wang, Jian

AU - Ma, Yuchen

AU - Eglitis, Roberts I.

AU - Zhang, Hong Xing

PY - 2017/7/13

Y1 - 2017/7/13

N2 - Two kinds of novel carbon nanotubes, namely, (N, 0) and (0, N) 6,6,12-graphyne nanotubes (6,6,12-GNTs), are constructed by rolling up the rectangular 6,6,12-graphyne sheets along two different sides into cylinders. The mechanical and electronic properties of 6,6,12-GNTs with varied N from 3 to 20 are investigated by using density functional theory. Unlike the single-wall carbon nanotubes, the Young's moduli of 6,6,12-GNTs do not remain constant in the case of (N, 0), but the (0, N) tubes possess almost the same one around 0.32 TPa. The band structures and density of states are also exhibited in this work. When the tube sizes N are bigger than four, Dirac points appear at Fermi level in the band maps of (N, 0) type 6,6,12-GNTs following an even-odd law, while the (0, N) tubes are narrow-gap semiconductors with tiny band gaps between 5.5 and 247.3 meV.

AB - Two kinds of novel carbon nanotubes, namely, (N, 0) and (0, N) 6,6,12-graphyne nanotubes (6,6,12-GNTs), are constructed by rolling up the rectangular 6,6,12-graphyne sheets along two different sides into cylinders. The mechanical and electronic properties of 6,6,12-GNTs with varied N from 3 to 20 are investigated by using density functional theory. Unlike the single-wall carbon nanotubes, the Young's moduli of 6,6,12-GNTs do not remain constant in the case of (N, 0), but the (0, N) tubes possess almost the same one around 0.32 TPa. The band structures and density of states are also exhibited in this work. When the tube sizes N are bigger than four, Dirac points appear at Fermi level in the band maps of (N, 0) type 6,6,12-GNTs following an even-odd law, while the (0, N) tubes are narrow-gap semiconductors with tiny band gaps between 5.5 and 247.3 meV.

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DO - 10.1021/acs.jpcc.7b01687

M3 - Article

AN - SCOPUS:85024926118

SN - 1932-7447

VL - 121

SP - 14835

EP - 14844

JO - Journal of Physical Chemistry C

JF - Journal of Physical Chemistry C

IS - 27

ER -

Novel Carbon Nanotubes Rolled from 6,6,12-Graphyne: Double Dirac Points in 1D Material

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