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Mixed low-dimensional nanomaterial: 2D ultranarrow MoS2 inorganic nanoribbons encapsulated in quasi-1D carbon nanotubes.

Quasi-one-dimensional nanotubes and two-dimensional nanoribbons are two fundamental forms of nanostructures, and integrating them into a novel mixed low-dimensional nanomaterial is fascinating and challenging. We have synthesized a stable mixed low-dimensional nanomaterial consisting of MoS(2) inorg... Full description

Journal Title: Journal of the American Chemical Society October 6, 2010, Vol.132(39), pp.13840-13847
Main Author: Wang, Zhiyong
Other Authors: Li, Hong , Liu, Zheng , Shi, Zujin , Lu, Jing , Suenaga, Kazu , Joung, Soon-Kil , Okazaki, Toshiya , Gu, Zhennan , Zhou, Jing , Gao, Zhengxiang , Li, Guangping , Sanvito, Stefano , Wang, Enge , Iijima, Sumio
Format: Electronic Article Electronic Article
Language: English
Subjects:
ID: E-ISSN: 1520-5126 ; DOI: 1520-5126 ; DOI: 10.1021/ja1058026
Link: http://search.proquest.com/docview/756666874/?pq-origsite=primo
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title: Mixed low-dimensional nanomaterial: 2D ultranarrow MoS2 inorganic nanoribbons encapsulated in quasi-1D carbon nanotubes.
format: Article
creator:
  • Wang, Zhiyong
  • Li, Hong
  • Liu, Zheng
  • Shi, Zujin
  • Lu, Jing
  • Suenaga, Kazu
  • Joung, Soon-Kil
  • Okazaki, Toshiya
  • Gu, Zhennan
  • Zhou, Jing
  • Gao, Zhengxiang
  • Li, Guangping
  • Sanvito, Stefano
  • Wang, Enge
  • Iijima, Sumio
subjects:
  • Disulfides–Chemistry
  • Molybdenum–Chemistry
  • Nanostructures–Chemistry
  • Nanotubes, Carbon–Chemistry
  • Particle Size–Chemistry
  • Surface Properties–Chemistry
  • Disulfides
  • Nanotubes, Carbon
  • Molybdenum
  • Molybdenum Disulfide
ispartof: Journal of the American Chemical Society, October 6, 2010, Vol.132(39), pp.13840-13847
description: Quasi-one-dimensional nanotubes and two-dimensional nanoribbons are two fundamental forms of nanostructures, and integrating them into a novel mixed low-dimensional nanomaterial is fascinating and challenging. We have synthesized a stable mixed low-dimensional nanomaterial consisting of MoS(2) inorganic nanoribbons encapsulated in carbon nanotubes (which we call nanoburritos). This route can be extended to the synthesis of nanoburritos composed of other ultranarrow transition-metal chalcogenide nanoribbons and carbon nanotubes. The widths of previously synthesized MoS(2) ribbons are greater than 50 nm, while the encapsulated MoS(2) nanoribbons have uniform widths down to 1-4 nm and layer numbers down to 1-3, depending on the nanotube diameter. The edges of the MoS(2) nanoribbons have been identified as zigzag-shaped using both high-resolution transmission electron microscopy and density functional theory calculations.
language: eng
source:
identifier: E-ISSN: 1520-5126 ; DOI: 1520-5126 ; DOI: 10.1021/ja1058026
fulltext: no_fulltext
issn:
  • 15205126
  • 1520-5126
url: Link


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titleMixed low-dimensional nanomaterial: 2D ultranarrow MoS2 inorganic nanoribbons encapsulated in quasi-1D carbon nanotubes.
creatorWang, Zhiyong ; Li, Hong ; Liu, Zheng ; Shi, Zujin ; Lu, Jing ; Suenaga, Kazu ; Joung, Soon-Kil ; Okazaki, Toshiya ; Gu, Zhennan ; Zhou, Jing ; Gao, Zhengxiang ; Li, Guangping ; Sanvito, Stefano ; Wang, Enge ; Iijima, Sumio
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descriptionQuasi-one-dimensional nanotubes and two-dimensional nanoribbons are two fundamental forms of nanostructures, and integrating them into a novel mixed low-dimensional nanomaterial is fascinating and challenging. We have synthesized a stable mixed low-dimensional nanomaterial consisting of MoS(2) inorganic nanoribbons encapsulated in carbon nanotubes (which we call nanoburritos). This route can be extended to the synthesis of nanoburritos composed of other ultranarrow transition-metal chalcogenide nanoribbons and carbon nanotubes. The widths of previously synthesized MoS(2) ribbons are greater than 50 nm, while the encapsulated MoS(2) nanoribbons have uniform widths down to 1-4 nm and layer numbers down to 1-3, depending on the nanotube diameter. The edges of the MoS(2) nanoribbons have been identified as zigzag-shaped using both high-resolution transmission electron microscopy and density functional theory calculations.
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