Catalyst/dopant-free growth of ZnO nanobelts with different optical properties from nanowires grown via a catalyst-assisted method

B. Q. Cao; Z. M. Liu; H. Y. Xu; H. B. Gong; D. Nakamura; K. Sakai; M. Higashihata; T. Okada

doi:10.1039/c1ce05058c

Catalyst/dopant-free growth of ZnO nanobelts with different optical properties from nanowires grown via a catalyst-assisted method

B. Q. Cao, Z. M. Liu, H. Y. Xu, H. B. Gong, D. Nakamura, K. Sakai, M. Higashihata, T. Okada

Applied Energy Engineering

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

13 Citations (Scopus)

Abstract

The paper reported a simple but effective gold catalyst-tailored chemical vapour deposition (CVD) method to grow ZnO nanowires and nanobelts with different photoluminescence (PL) behaviours. ZnO nanowires along the c-axis were synthesized via a gold catalyst-assisted CVD method through the conventional vapour-liquid-solid (VLS) mechanism. But, ZnO nanobelts grew along the a-axis enclosed with {0110} and {0001} base planes without using any catalyst or dopant through the vapour-solid (VS) mechanism. The nanowires and nanobelts were proved to be of different optical quality, which was related with their growth process. Besides the different origin of the near-band-gap emission at room temperature, laser emission was only observed from ZnO nanobelts while the nanowires show anomalous photoluminescence behaviour under higher excitation density.

Original language	English
Pages (from-to)	4282-4287
Number of pages	6
Journal	CrystEngComm
Volume	13
Issue number	12
DOIs	https://doi.org/10.1039/c1ce05058c
Publication status	Published - Jun 21 2011

All Science Journal Classification (ASJC) codes

Chemistry(all)
Materials Science(all)
Condensed Matter Physics

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title = "Catalyst/dopant-free growth of ZnO nanobelts with different optical properties from nanowires grown via a catalyst-assisted method",

abstract = "The paper reported a simple but effective gold catalyst-tailored chemical vapour deposition (CVD) method to grow ZnO nanowires and nanobelts with different photoluminescence (PL) behaviours. ZnO nanowires along the c-axis were synthesized via a gold catalyst-assisted CVD method through the conventional vapour-liquid-solid (VLS) mechanism. But, ZnO nanobelts grew along the a-axis enclosed with {0110} and {0001} base planes without using any catalyst or dopant through the vapour-solid (VS) mechanism. The nanowires and nanobelts were proved to be of different optical quality, which was related with their growth process. Besides the different origin of the near-band-gap emission at room temperature, laser emission was only observed from ZnO nanobelts while the nanowires show anomalous photoluminescence behaviour under higher excitation density.",

author = "Cao, {B. Q.} and Liu, {Z. M.} and Xu, {H. Y.} and Gong, {H. B.} and D. Nakamura and K. Sakai and M. Higashihata and T. Okada",

year = "2011",

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doi = "10.1039/c1ce05058c",

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AU - Cao, B. Q.

AU - Liu, Z. M.

AU - Xu, H. Y.

AU - Gong, H. B.

AU - Nakamura, D.

AU - Sakai, K.

AU - Higashihata, M.

AU - Okada, T.

PY - 2011/6/21

Y1 - 2011/6/21

N2 - The paper reported a simple but effective gold catalyst-tailored chemical vapour deposition (CVD) method to grow ZnO nanowires and nanobelts with different photoluminescence (PL) behaviours. ZnO nanowires along the c-axis were synthesized via a gold catalyst-assisted CVD method through the conventional vapour-liquid-solid (VLS) mechanism. But, ZnO nanobelts grew along the a-axis enclosed with {0110} and {0001} base planes without using any catalyst or dopant through the vapour-solid (VS) mechanism. The nanowires and nanobelts were proved to be of different optical quality, which was related with their growth process. Besides the different origin of the near-band-gap emission at room temperature, laser emission was only observed from ZnO nanobelts while the nanowires show anomalous photoluminescence behaviour under higher excitation density.

AB - The paper reported a simple but effective gold catalyst-tailored chemical vapour deposition (CVD) method to grow ZnO nanowires and nanobelts with different photoluminescence (PL) behaviours. ZnO nanowires along the c-axis were synthesized via a gold catalyst-assisted CVD method through the conventional vapour-liquid-solid (VLS) mechanism. But, ZnO nanobelts grew along the a-axis enclosed with {0110} and {0001} base planes without using any catalyst or dopant through the vapour-solid (VS) mechanism. The nanowires and nanobelts were proved to be of different optical quality, which was related with their growth process. Besides the different origin of the near-band-gap emission at room temperature, laser emission was only observed from ZnO nanobelts while the nanowires show anomalous photoluminescence behaviour under higher excitation density.

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Catalyst/dopant-free growth of ZnO nanobelts with different optical properties from nanowires grown via a catalyst-assisted method

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