Growth-induced stacking faults of ZnO nanorods probed by spatial resolved cathodoluminescence

Yong Xie; Wan Qi Jie; Tao Wang; Michael Wiedenmann; Benjamin Neuschl; Manfred Madel; Ya Bin Wang; Martin Feneberg; Klaus Thonke

doi:10.1088/0256-307X/29/7/077803

Growth-induced stacking faults of ZnO nanorods probed by spatial resolved cathodoluminescence

Yong Xie
, Wan Qi Jie
, Tao Wang
, Michael Wiedenmann
, Benjamin Neuschl
, Manfred Madel
, Ya Bin Wang
, Martin Feneberg
, Klaus Thonke

School of Materials Sience and Engineering

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

5 Scopus citations

Abstract

Low density ZnO nanorods are grown by modified chemical vapor deposition on silicon substrates using gold as a catalyst. We use high resolution photoluminescence spectroscopy to gain the optical properties of these nanorods in large scale. The as-grown samples show sharp near-band-gap luminescence with a full width at half maximum of bound exciton peaks at about 300 μeV, and the ratio of ultraviolet/yellow luminescence larger than 100. Highly spatial and spectral resolved scanning electron microscope-cathodoluminescence is performed to excite the ZnO nanorods in single rods or different positions of single rods with the vapour-solid growth mechanism. The bottom of the nanorod has a 3.31-eV luminescence, which indicates that basal plane stacking faults are related to the defects that are created at the first stage of growth due to the misfit between ZnO and Si.

Original language	English
Article number	077803
Journal	Chinese Physics Letters
Volume	29
Issue number	7
DOIs	https://doi.org/10.1088/0256-307X/29/7/077803
State	Published - Jul 2012

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10.1088/0256-307X/29/7/077803

Cite this

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title = "Growth-induced stacking faults of ZnO nanorods probed by spatial resolved cathodoluminescence",

abstract = "Low density ZnO nanorods are grown by modified chemical vapor deposition on silicon substrates using gold as a catalyst. We use high resolution photoluminescence spectroscopy to gain the optical properties of these nanorods in large scale. The as-grown samples show sharp near-band-gap luminescence with a full width at half maximum of bound exciton peaks at about 300 μeV, and the ratio of ultraviolet/yellow luminescence larger than 100. Highly spatial and spectral resolved scanning electron microscope-cathodoluminescence is performed to excite the ZnO nanorods in single rods or different positions of single rods with the vapour-solid growth mechanism. The bottom of the nanorod has a 3.31-eV luminescence, which indicates that basal plane stacking faults are related to the defects that are created at the first stage of growth due to the misfit between ZnO and Si.",

author = "Yong Xie and Jie, \{Wan Qi\} and Tao Wang and Michael Wiedenmann and Benjamin Neuschl and Manfred Madel and Wang, \{Ya Bin\} and Martin Feneberg and Klaus Thonke",

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T1 - Growth-induced stacking faults of ZnO nanorods probed by spatial resolved cathodoluminescence

AU - Xie, Yong

AU - Jie, Wan Qi

AU - Wang, Tao

AU - Wiedenmann, Michael

AU - Neuschl, Benjamin

AU - Madel, Manfred

AU - Wang, Ya Bin

AU - Feneberg, Martin

AU - Thonke, Klaus

PY - 2012/7

Y1 - 2012/7

N2 - Low density ZnO nanorods are grown by modified chemical vapor deposition on silicon substrates using gold as a catalyst. We use high resolution photoluminescence spectroscopy to gain the optical properties of these nanorods in large scale. The as-grown samples show sharp near-band-gap luminescence with a full width at half maximum of bound exciton peaks at about 300 μeV, and the ratio of ultraviolet/yellow luminescence larger than 100. Highly spatial and spectral resolved scanning electron microscope-cathodoluminescence is performed to excite the ZnO nanorods in single rods or different positions of single rods with the vapour-solid growth mechanism. The bottom of the nanorod has a 3.31-eV luminescence, which indicates that basal plane stacking faults are related to the defects that are created at the first stage of growth due to the misfit between ZnO and Si.

AB - Low density ZnO nanorods are grown by modified chemical vapor deposition on silicon substrates using gold as a catalyst. We use high resolution photoluminescence spectroscopy to gain the optical properties of these nanorods in large scale. The as-grown samples show sharp near-band-gap luminescence with a full width at half maximum of bound exciton peaks at about 300 μeV, and the ratio of ultraviolet/yellow luminescence larger than 100. Highly spatial and spectral resolved scanning electron microscope-cathodoluminescence is performed to excite the ZnO nanorods in single rods or different positions of single rods with the vapour-solid growth mechanism. The bottom of the nanorod has a 3.31-eV luminescence, which indicates that basal plane stacking faults are related to the defects that are created at the first stage of growth due to the misfit between ZnO and Si.

UR - https://www.scopus.com/pages/publications/84864245157

U2 - 10.1088/0256-307X/29/7/077803

DO - 10.1088/0256-307X/29/7/077803

M3 - 文章

AN - SCOPUS:84864245157

SN - 0256-307X

VL - 29

JO - Chinese Physics Letters

JF - Chinese Physics Letters

IS - 7

M1 - 077803

ER -

Growth-induced stacking faults of ZnO nanorods probed by spatial resolved cathodoluminescence

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