Uniform carbon nanoflake films and their field emissions

N. G. Shang; F. C K Au; X. M. Meng; C. S. Lee; I. Bello; S. T. Lee

doi:10.1016/S0009-2614(02)00430-X

Uniform carbon nanoflake films and their field emissions

N. G. Shang, F. C K Au, X. M. Meng, C. S. Lee, I. Bello, S. T. Lee

Centre of Super-Diamond and Advanced Films

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

152 Citations (Scopus)

Abstract

Films of uniformly distributed carbon nanoflakes have been prepared by using hot filament chemical vapor deposition. A large amount of carbon flakes with a thickness of less than 20 nm interlaced together to form a layer of carbon nest-like film with their sharp edges almost perpendicular to the Si substrate. Raman spectroscopy showed that the films were characteristic of pyrolytic graphite and became more disordered with the increase of substrate temperature and acetylene concentration. The growth mechanism of the carbon nanoflake films was discussed. The field emission performance has been done, showing a turn-on field of about 17 V/μm. Considering the ease of large-area preparation, the carbon nanoflake films might have a potential application in vacuum electronic devices. © 2002 Elsevier Science B.V. All rights reserved.

Original language	English
Pages (from-to)	187-191
Journal	Chemical Physics Letters
Volume	358
Issue number	3-4
DOIs	https://doi.org/10.1016/S0009-2614(02)00430-X
Publication status	Published - 31 May 2002

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title = "Uniform carbon nanoflake films and their field emissions",

abstract = "Films of uniformly distributed carbon nanoflakes have been prepared by using hot filament chemical vapor deposition. A large amount of carbon flakes with a thickness of less than 20 nm interlaced together to form a layer of carbon nest-like film with their sharp edges almost perpendicular to the Si substrate. Raman spectroscopy showed that the films were characteristic of pyrolytic graphite and became more disordered with the increase of substrate temperature and acetylene concentration. The growth mechanism of the carbon nanoflake films was discussed. The field emission performance has been done, showing a turn-on field of about 17 V/μm. Considering the ease of large-area preparation, the carbon nanoflake films might have a potential application in vacuum electronic devices. {\textcopyright} 2002 Elsevier Science B.V. All rights reserved.",

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T1 - Uniform carbon nanoflake films and their field emissions

AU - Shang, N. G.

AU - Au, F. C K

AU - Meng, X. M.

AU - Lee, C. S.

AU - Bello, I.

AU - Lee, S. T.

PY - 2002/5/31

Y1 - 2002/5/31

N2 - Films of uniformly distributed carbon nanoflakes have been prepared by using hot filament chemical vapor deposition. A large amount of carbon flakes with a thickness of less than 20 nm interlaced together to form a layer of carbon nest-like film with their sharp edges almost perpendicular to the Si substrate. Raman spectroscopy showed that the films were characteristic of pyrolytic graphite and became more disordered with the increase of substrate temperature and acetylene concentration. The growth mechanism of the carbon nanoflake films was discussed. The field emission performance has been done, showing a turn-on field of about 17 V/μm. Considering the ease of large-area preparation, the carbon nanoflake films might have a potential application in vacuum electronic devices. © 2002 Elsevier Science B.V. All rights reserved.

AB - Films of uniformly distributed carbon nanoflakes have been prepared by using hot filament chemical vapor deposition. A large amount of carbon flakes with a thickness of less than 20 nm interlaced together to form a layer of carbon nest-like film with their sharp edges almost perpendicular to the Si substrate. Raman spectroscopy showed that the films were characteristic of pyrolytic graphite and became more disordered with the increase of substrate temperature and acetylene concentration. The growth mechanism of the carbon nanoflake films was discussed. The field emission performance has been done, showing a turn-on field of about 17 V/μm. Considering the ease of large-area preparation, the carbon nanoflake films might have a potential application in vacuum electronic devices. © 2002 Elsevier Science B.V. All rights reserved.

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U2 - 10.1016/S0009-2614(02)00430-X

DO - 10.1016/S0009-2614(02)00430-X

M3 - RGC 21 - Publication in refereed journal

SN - 0009-2614

VL - 358

SP - 187

EP - 191

JO - Chemical Physics Letters

JF - Chemical Physics Letters

IS - 3-4

ER -

Uniform carbon nanoflake films and their field emissions

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