Initial growth of single-crystalline nanowires: From 3D nucleation to 2D growth

X. H. Huang; G. H. Li; G. Z. Sun; X. C. Dou; L. Li; L. X. Zheng

doi:10.1007/s11671-010-9602-5

Initial growth of single-crystalline nanowires: From 3D nucleation to 2D growth

X. H. Huang, G. H. Li, G. Z. Sun, X. C. Dou, L. Li, L. X. Zheng

Mechanical & Nuclear Engineering

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

18 Scopus citations

Abstract

The initial growth stage of the single-crystalline Sb and Co nanowires with preferential orientation was studied, which were synthesized in porous anodic alumina membranes by the pulsed electrodeposition technique. It was revealed that the initial growth of the nanowires is a three-dimensional nucleation process, and then gradually transforms to two-dimensional growth via progressive nucleation mechanism, which resulting in a structure transition from polycrystalline to single crystalline. The competition among the nuclei inside the nanoscaled-confined channel and the growth kinetics is responsible for the structure transition of the initial grown nanowires.

Original language	British English
Pages (from-to)	1057-1062
Number of pages	6
Journal	Nanoscale Research Letters
Volume	5
Issue number	6
DOIs	https://doi.org/10.1007/s11671-010-9602-5
State	Published - Jun 2010

Keywords

Anodic alumina membrane
Electrodeposition
Initial growth mechanism
Nanowire

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10.1007/s11671-010-9602-5

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title = "Initial growth of single-crystalline nanowires: From 3D nucleation to 2D growth",

abstract = "The initial growth stage of the single-crystalline Sb and Co nanowires with preferential orientation was studied, which were synthesized in porous anodic alumina membranes by the pulsed electrodeposition technique. It was revealed that the initial growth of the nanowires is a three-dimensional nucleation process, and then gradually transforms to two-dimensional growth via progressive nucleation mechanism, which resulting in a structure transition from polycrystalline to single crystalline. The competition among the nuclei inside the nanoscaled-confined channel and the growth kinetics is responsible for the structure transition of the initial grown nanowires.",

keywords = "Anodic alumina membrane, Electrodeposition, Initial growth mechanism, Nanowire",

author = "Huang, {X. H.} and Li, {G. H.} and Sun, {G. Z.} and Dou, {X. C.} and L. Li and Zheng, {L. X.}",

note = "Funding Information: Acknowledgments This work was supported by the National Natural Science Foundation of China (10704074) and the National Major Project of Fundamental Research for Nanomaterials and Nanostruc-tures (no. 2005CB623603).",

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doi = "10.1007/s11671-010-9602-5",

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T2 - From 3D nucleation to 2D growth

AU - Huang, X. H.

AU - Li, G. H.

AU - Sun, G. Z.

AU - Dou, X. C.

AU - Li, L.

AU - Zheng, L. X.

N1 - Funding Information: Acknowledgments This work was supported by the National Natural Science Foundation of China (10704074) and the National Major Project of Fundamental Research for Nanomaterials and Nanostruc-tures (no. 2005CB623603).

PY - 2010/6

Y1 - 2010/6

N2 - The initial growth stage of the single-crystalline Sb and Co nanowires with preferential orientation was studied, which were synthesized in porous anodic alumina membranes by the pulsed electrodeposition technique. It was revealed that the initial growth of the nanowires is a three-dimensional nucleation process, and then gradually transforms to two-dimensional growth via progressive nucleation mechanism, which resulting in a structure transition from polycrystalline to single crystalline. The competition among the nuclei inside the nanoscaled-confined channel and the growth kinetics is responsible for the structure transition of the initial grown nanowires.

AB - The initial growth stage of the single-crystalline Sb and Co nanowires with preferential orientation was studied, which were synthesized in porous anodic alumina membranes by the pulsed electrodeposition technique. It was revealed that the initial growth of the nanowires is a three-dimensional nucleation process, and then gradually transforms to two-dimensional growth via progressive nucleation mechanism, which resulting in a structure transition from polycrystalline to single crystalline. The competition among the nuclei inside the nanoscaled-confined channel and the growth kinetics is responsible for the structure transition of the initial grown nanowires.

KW - Anodic alumina membrane

KW - Electrodeposition

KW - Initial growth mechanism

KW - Nanowire

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JO - Nanoscale Research Letters

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ER -

Initial growth of single-crystalline nanowires: From 3D nucleation to 2D growth

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