Diameter Dependence of Planar Defects in InP Nanowires

Fengyun Wang; Chao Wang; Yiqian Wang; Minghuan Zhang; Zhenlian Han; SenPo Yip; Lifan Shen; Ning Han; Edwin Y. B. Pun; Johnny C. Ho

doi:10.1038/srep32910

Diameter Dependence of Planar Defects in InP Nanowires

Fengyun Wang^*, Chao Wang, Yiqian Wang, Minghuan Zhang, Zhenlian Han, SenPo Yip, Lifan Shen, Ning Han, Edwin Y. B. Pun, Johnny C. Ho^*

^*Corresponding author for this work

Research output: Journal Publications and Reviews › RGC 21 - Publication in refereed journal › peer-review

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Abstract

In this work, extensive characterization and complementary theoretical analysis have been carried out on Au-catalyzed InP nanowires in order to understand the planar defect formation as a function of nanowire diameter. From the detailed transmission electron microscopic measurements, the density of stacking faults and twin defects are found to monotonically decrease as the nanowire diameter is decreased to 10 nm, and the chemical analysis clearly indicates the drastic impact of In catalytic supersaturation in Au nanoparticles on the minimized planar defect formation in miniaturized nanowires. Specifically, during the chemical vapor deposition of InP nanowires, a significant amount of planar defects is created when the catalyst seed sizes are increased with the lower degree of In supersaturation as dictated by the Gibbs-Thomson effect, and an insufficient In diffusion (or Au-rich enhancement) would lead to a reduced and non-uniform In precipitation at the NW growing interface. The results presented here provide an insight into the fabrication of "bottom-up" InP NWs with minimized defect concentration which are suitable for various device applications.

Original language	English
Article number	32910
Journal	Scientific Reports
Volume	6
Online published	12 Sept 2016
DOIs	https://doi.org/10.1038/srep32910
Publication status	Published - 2016

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This full text is made available under CC-BY 4.0. https://creativecommons.org/licenses/by/4.0/

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title = "Diameter Dependence of Planar Defects in InP Nanowires",

abstract = "In this work, extensive characterization and complementary theoretical analysis have been carried out on Au-catalyzed InP nanowires in order to understand the planar defect formation as a function of nanowire diameter. From the detailed transmission electron microscopic measurements, the density of stacking faults and twin defects are found to monotonically decrease as the nanowire diameter is decreased to 10 nm, and the chemical analysis clearly indicates the drastic impact of In catalytic supersaturation in Au nanoparticles on the minimized planar defect formation in miniaturized nanowires. Specifically, during the chemical vapor deposition of InP nanowires, a significant amount of planar defects is created when the catalyst seed sizes are increased with the lower degree of In supersaturation as dictated by the Gibbs-Thomson effect, and an insufficient In diffusion (or Au-rich enhancement) would lead to a reduced and non-uniform In precipitation at the NW growing interface. The results presented here provide an insight into the fabrication of {"}bottom-up{"} InP NWs with minimized defect concentration which are suitable for various device applications.",

author = "Fengyun Wang and Chao Wang and Yiqian Wang and Minghuan Zhang and Zhenlian Han and SenPo Yip and Lifan Shen and Ning Han and Pun, {Edwin Y. B.} and Ho, {Johnny C.}",

year = "2016",

doi = "10.1038/srep32910",

language = "English",

volume = "6",

journal = "Scientific Reports",

issn = "2045-2322",

publisher = "Nature Publishing Group",

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TY - JOUR

T1 - Diameter Dependence of Planar Defects in InP Nanowires

AU - Wang, Fengyun

AU - Wang, Chao

AU - Wang, Yiqian

AU - Zhang, Minghuan

AU - Han, Zhenlian

AU - Yip, SenPo

AU - Shen, Lifan

AU - Han, Ning

AU - Pun, Edwin Y. B.

AU - Ho, Johnny C.

PY - 2016

Y1 - 2016

N2 - In this work, extensive characterization and complementary theoretical analysis have been carried out on Au-catalyzed InP nanowires in order to understand the planar defect formation as a function of nanowire diameter. From the detailed transmission electron microscopic measurements, the density of stacking faults and twin defects are found to monotonically decrease as the nanowire diameter is decreased to 10 nm, and the chemical analysis clearly indicates the drastic impact of In catalytic supersaturation in Au nanoparticles on the minimized planar defect formation in miniaturized nanowires. Specifically, during the chemical vapor deposition of InP nanowires, a significant amount of planar defects is created when the catalyst seed sizes are increased with the lower degree of In supersaturation as dictated by the Gibbs-Thomson effect, and an insufficient In diffusion (or Au-rich enhancement) would lead to a reduced and non-uniform In precipitation at the NW growing interface. The results presented here provide an insight into the fabrication of "bottom-up" InP NWs with minimized defect concentration which are suitable for various device applications.

AB - In this work, extensive characterization and complementary theoretical analysis have been carried out on Au-catalyzed InP nanowires in order to understand the planar defect formation as a function of nanowire diameter. From the detailed transmission electron microscopic measurements, the density of stacking faults and twin defects are found to monotonically decrease as the nanowire diameter is decreased to 10 nm, and the chemical analysis clearly indicates the drastic impact of In catalytic supersaturation in Au nanoparticles on the minimized planar defect formation in miniaturized nanowires. Specifically, during the chemical vapor deposition of InP nanowires, a significant amount of planar defects is created when the catalyst seed sizes are increased with the lower degree of In supersaturation as dictated by the Gibbs-Thomson effect, and an insufficient In diffusion (or Au-rich enhancement) would lead to a reduced and non-uniform In precipitation at the NW growing interface. The results presented here provide an insight into the fabrication of "bottom-up" InP NWs with minimized defect concentration which are suitable for various device applications.

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U2 - 10.1038/srep32910

DO - 10.1038/srep32910

M3 - RGC 21 - Publication in refereed journal

C2 - 27616584

SN - 2045-2322

VL - 6

JO - Scientific Reports

JF - Scientific Reports

M1 - 32910

ER -

Diameter Dependence of Planar Defects in InP Nanowires

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Diameter Dependence of Planar Defects in InP Nanowires

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