Atomistic nucleation and growth mechanism for single-wall carbon nanotubes on catalytic nanoparticle surfaces

Jian Tao Wang; Changfeng Chen; Kaoru Ohno; Enge Wang; Xiao Long Chen; Ding Sheng Wang; Hiroshi Mizuseki; Yoshiyuki Kawazoe

doi:10.1088/0957-4484/21/11/115602

Atomistic nucleation and growth mechanism for single-wall carbon nanotubes on catalytic nanoparticle surfaces

Jian Tao Wang, Changfeng Chen, Kaoru Ohno, Enge Wang, Xiao Long Chen, Ding Sheng Wang, Hiroshi Mizuseki, Yoshiyuki Kawazoe

New Industry Creation Hatchery Center (NICHe)

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

6 Citations (Scopus)

Abstract

We demonstrate an atomistic nucleation and growth mechanism for single-wall carbon nanotubes (SWNTs) on catalytic nanoparticle surfaces based on a core-shell model. We show by ab initio calculations that strain relief between the metal core and carbon shell plays a crucial role in facilitating the hexagonal tubular growth. The incipient nucleation begins with the formation of a hemispherical fullerene cap by a size-selected core-shell bonding process which is followed by a repeated phase-separating growth mode with increasing energetic stability via periodic pulsatile strain relief along the tubular growth pathway. These results provide an excellent account for experimental observations and shed new light on the origin and underlying dynamics of SWNT growth.

Original language	English
Article number	115602
Journal	Nanotechnology
Volume	21
Issue number	11
DOIs	https://doi.org/10.1088/0957-4484/21/11/115602
Publication status	Published - 2010 Mar 5

ASJC Scopus subject areas

Bioengineering
Chemistry(all)
Materials Science(all)
Mechanics of Materials
Mechanical Engineering
Electrical and Electronic Engineering

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10.1088/0957-4484/21/11/115602

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title = "Atomistic nucleation and growth mechanism for single-wall carbon nanotubes on catalytic nanoparticle surfaces",

abstract = "We demonstrate an atomistic nucleation and growth mechanism for single-wall carbon nanotubes (SWNTs) on catalytic nanoparticle surfaces based on a core-shell model. We show by ab initio calculations that strain relief between the metal core and carbon shell plays a crucial role in facilitating the hexagonal tubular growth. The incipient nucleation begins with the formation of a hemispherical fullerene cap by a size-selected core-shell bonding process which is followed by a repeated phase-separating growth mode with increasing energetic stability via periodic pulsatile strain relief along the tubular growth pathway. These results provide an excellent account for experimental observations and shed new light on the origin and underlying dynamics of SWNT growth.",

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AU - Wang, Jian Tao

AU - Chen, Changfeng

AU - Ohno, Kaoru

AU - Wang, Enge

AU - Chen, Xiao Long

AU - Wang, Ding Sheng

AU - Mizuseki, Hiroshi

AU - Kawazoe, Yoshiyuki

PY - 2010/3/5

Y1 - 2010/3/5

N2 - We demonstrate an atomistic nucleation and growth mechanism for single-wall carbon nanotubes (SWNTs) on catalytic nanoparticle surfaces based on a core-shell model. We show by ab initio calculations that strain relief between the metal core and carbon shell plays a crucial role in facilitating the hexagonal tubular growth. The incipient nucleation begins with the formation of a hemispherical fullerene cap by a size-selected core-shell bonding process which is followed by a repeated phase-separating growth mode with increasing energetic stability via periodic pulsatile strain relief along the tubular growth pathway. These results provide an excellent account for experimental observations and shed new light on the origin and underlying dynamics of SWNT growth.

AB - We demonstrate an atomistic nucleation and growth mechanism for single-wall carbon nanotubes (SWNTs) on catalytic nanoparticle surfaces based on a core-shell model. We show by ab initio calculations that strain relief between the metal core and carbon shell plays a crucial role in facilitating the hexagonal tubular growth. The incipient nucleation begins with the formation of a hemispherical fullerene cap by a size-selected core-shell bonding process which is followed by a repeated phase-separating growth mode with increasing energetic stability via periodic pulsatile strain relief along the tubular growth pathway. These results provide an excellent account for experimental observations and shed new light on the origin and underlying dynamics of SWNT growth.

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Atomistic nucleation and growth mechanism for single-wall carbon nanotubes on catalytic nanoparticle surfaces

Abstract

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