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Synthesis and field emission characteristics of carbon nanocoils with a high aspect ratio supported by copper micro-tips

Authors: Woo Yong Sung, Jong G. Ok, Wal Jun Kim, Seung Min Lee, Soon Chang Yeon, Ho Young Lee, and Yong Hyup Kim

Journal: Nanotechnology

Vol. (No.), pp.: 18 (24), 245603 (Jun 2007)

Year: 2014-

Link: https://doi.org/10.1088/0957-4484/18/24/245603

Carbon nanocoils (CNCs) were synthesized via thermal chemical vapour deposition (CVD) with C2H2 and NH3 gases at 600 °C. A Ni catalyst was placed upon the copper micro-tip structures that were fabricated on a silicon substrate. Our CNCs had a long rope shape with a length not exceeding 100 µm and a nanoscale diameter. The copper micro-tips were formed through high current pulse electroplating, which played a significant role in characterizing our CNCs. The CNCs grown on the copper micro-tips showed outstanding field emission performance and long-term stability. Their turn-on field, defined as that at a current density of 10 µA cm−2, was 1.30 V µm−1 and the maximum current density reached 11.17 mA cm−2 at an electric field of 2.39 V µm−1.

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Synthesis and field emission characteristics of carbon nanocoils with a high aspect ratio supported by copper micro-tips