ZnO nanorod arrays grown on glass substrates below glass transition temperature by metalorganic chemical vapor deposition

Dong Chan Kim; Sanjay Kumar Mahanta; Bo Hyun Kong; Hyung Koun Cho; Hong Seung Kim

doi:10.1007/s10854-008-9567-7

ZnO nanorod arrays grown on glass substrates below glass transition temperature by metalorganic chemical vapor deposition

Dong Chan Kim, Sanjay Kumar Mahanta, Bo Hyun Kong, Hyung Koun Cho, Hong Seung Kim

Department of Advanced Materials Science and Engineering

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

10 Scopus citations

Abstract

High density, well-aligned ZnO nanorods with uniform distributions in their diameters and lengths are successfully prepared on amorphous substrates by metalorganic chemical vapor deposition. The X-ray diffraction measurements indicate that the ZnO nanorods are of wurtzite crystal structure, and are grown preferentially on glass substrates along the [0001] _Zno direction. The degree of the preferred orientation of the ZnO nanorods is enhanced by increasing the growth temperature, as confirmed by the X-ray diffraction and selected area electron diffraction patterns. Photoluminescence investigations revealed the enhancement of the band edge emission with increasing growth temperature, suggesting the improvement in the optical quality of the ZnO nanorods with increasing temperature.

Original language	English
Pages (from-to)	S245-S248
Journal	Journal of Materials Science: Materials in Electronics
Volume	20
Issue number	SUPPL. 1
DOIs	https://doi.org/10.1007/s10854-008-9567-7
State	Published - Jan 2009

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title = "ZnO nanorod arrays grown on glass substrates below glass transition temperature by metalorganic chemical vapor deposition",

abstract = "High density, well-aligned ZnO nanorods with uniform distributions in their diameters and lengths are successfully prepared on amorphous substrates by metalorganic chemical vapor deposition. The X-ray diffraction measurements indicate that the ZnO nanorods are of wurtzite crystal structure, and are grown preferentially on glass substrates along the [0001] Zno direction. The degree of the preferred orientation of the ZnO nanorods is enhanced by increasing the growth temperature, as confirmed by the X-ray diffraction and selected area electron diffraction patterns. Photoluminescence investigations revealed the enhancement of the band edge emission with increasing growth temperature, suggesting the improvement in the optical quality of the ZnO nanorods with increasing temperature.",

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T1 - ZnO nanorod arrays grown on glass substrates below glass transition temperature by metalorganic chemical vapor deposition

AU - Kim, Dong Chan

AU - Mahanta, Sanjay Kumar

AU - Kong, Bo Hyun

AU - Cho, Hyung Koun

AU - Kim, Hong Seung

PY - 2009/1

Y1 - 2009/1

N2 - High density, well-aligned ZnO nanorods with uniform distributions in their diameters and lengths are successfully prepared on amorphous substrates by metalorganic chemical vapor deposition. The X-ray diffraction measurements indicate that the ZnO nanorods are of wurtzite crystal structure, and are grown preferentially on glass substrates along the [0001] Zno direction. The degree of the preferred orientation of the ZnO nanorods is enhanced by increasing the growth temperature, as confirmed by the X-ray diffraction and selected area electron diffraction patterns. Photoluminescence investigations revealed the enhancement of the band edge emission with increasing growth temperature, suggesting the improvement in the optical quality of the ZnO nanorods with increasing temperature.

AB - High density, well-aligned ZnO nanorods with uniform distributions in their diameters and lengths are successfully prepared on amorphous substrates by metalorganic chemical vapor deposition. The X-ray diffraction measurements indicate that the ZnO nanorods are of wurtzite crystal structure, and are grown preferentially on glass substrates along the [0001] Zno direction. The degree of the preferred orientation of the ZnO nanorods is enhanced by increasing the growth temperature, as confirmed by the X-ray diffraction and selected area electron diffraction patterns. Photoluminescence investigations revealed the enhancement of the band edge emission with increasing growth temperature, suggesting the improvement in the optical quality of the ZnO nanorods with increasing temperature.

UR - https://www.scopus.com/pages/publications/71149107050

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JO - Journal of Materials Science: Materials in Electronics

JF - Journal of Materials Science: Materials in Electronics

IS - SUPPL. 1

ER -

ZnO nanorod arrays grown on glass substrates below glass transition temperature by metalorganic chemical vapor deposition

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