One-step growth of graphene-carbon nanotube hybrid materials by chemical vapor deposition

Xiaochen Dong; Bing Li; Ang Wei; Xiehong Cao; M. B. Chan-Park; Hua Zhang; Lain Jong Li; Wei Huang; Peng Chen

doi:10.1016/j.carbon.2011.03.009

One-step growth of graphene-carbon nanotube hybrid materials by chemical vapor deposition

Xiaochen Dong, Bing Li, Ang Wei, Xiehong Cao, M. B. Chan-Park, Hua Zhang, Lain Jong Li, Wei Huang, Peng Chen^*

^*Corresponding author for this work

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

186 Citations (Scopus)

Abstract

Graphene-carbon nanotube (CNT) hybrid materials were synthesized by simple one-step chemical vapor deposition (CVD) using ethanol as precursor. On a copper foil decorated with silicon nanparticles (Si NPs), a graphene film grows uniformly on the substrate while CNTs sprout out from Si NPs to form a network on top. The density of CNTs can be controlled by the CVD growth temperature. As measured by scanning and transmission electron microscopy, the obtained CNTs exhibit bamboo-like multiple-wall structures. Electrical characterization shows that the graphene-CNT hybrids exhibit p-type field-effect characteristics and a significantly higher conductivity compared to a CVD grown pure graphene film.

Original language	English
Pages (from-to)	2944-2949
Number of pages	6
Journal	Carbon
Volume	49
Issue number	9
DOIs	https://doi.org/10.1016/j.carbon.2011.03.009
Publication status	Published - Aug 2011
Externally published	Yes

ASJC Scopus Subject Areas

General Chemistry
General Materials Science

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10.1016/j.carbon.2011.03.009

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title = "One-step growth of graphene-carbon nanotube hybrid materials by chemical vapor deposition",

abstract = "Graphene-carbon nanotube (CNT) hybrid materials were synthesized by simple one-step chemical vapor deposition (CVD) using ethanol as precursor. On a copper foil decorated with silicon nanparticles (Si NPs), a graphene film grows uniformly on the substrate while CNTs sprout out from Si NPs to form a network on top. The density of CNTs can be controlled by the CVD growth temperature. As measured by scanning and transmission electron microscopy, the obtained CNTs exhibit bamboo-like multiple-wall structures. Electrical characterization shows that the graphene-CNT hybrids exhibit p-type field-effect characteristics and a significantly higher conductivity compared to a CVD grown pure graphene film.",

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AU - Dong, Xiaochen

AU - Li, Bing

AU - Wei, Ang

AU - Cao, Xiehong

AU - Chan-Park, M. B.

AU - Zhang, Hua

AU - Li, Lain Jong

AU - Huang, Wei

AU - Chen, Peng

PY - 2011/8

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N2 - Graphene-carbon nanotube (CNT) hybrid materials were synthesized by simple one-step chemical vapor deposition (CVD) using ethanol as precursor. On a copper foil decorated with silicon nanparticles (Si NPs), a graphene film grows uniformly on the substrate while CNTs sprout out from Si NPs to form a network on top. The density of CNTs can be controlled by the CVD growth temperature. As measured by scanning and transmission electron microscopy, the obtained CNTs exhibit bamboo-like multiple-wall structures. Electrical characterization shows that the graphene-CNT hybrids exhibit p-type field-effect characteristics and a significantly higher conductivity compared to a CVD grown pure graphene film.

AB - Graphene-carbon nanotube (CNT) hybrid materials were synthesized by simple one-step chemical vapor deposition (CVD) using ethanol as precursor. On a copper foil decorated with silicon nanparticles (Si NPs), a graphene film grows uniformly on the substrate while CNTs sprout out from Si NPs to form a network on top. The density of CNTs can be controlled by the CVD growth temperature. As measured by scanning and transmission electron microscopy, the obtained CNTs exhibit bamboo-like multiple-wall structures. Electrical characterization shows that the graphene-CNT hybrids exhibit p-type field-effect characteristics and a significantly higher conductivity compared to a CVD grown pure graphene film.

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One-step growth of graphene-carbon nanotube hybrid materials by chemical vapor deposition

Abstract

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