Catalyst-assisted growth of single-crystalline hafnium carbide nanotubes by chemical vapor deposition

Song Tian; Hejun Li; Yulei Zhang; Jincui Ren; Xinfa Qiang; Jie Wang

doi:10.1111/jace.12678

Catalyst-assisted growth of single-crystalline hafnium carbide nanotubes by chemical vapor deposition

Song Tian, Hejun Li, Yulei Zhang, Jincui Ren, Xinfa Qiang, Jie Wang

School of Materials Sience and Engineering

Northwestern Polytechnical University Xian

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

12 Scopus citations

Abstract

Single-crystalline hafnium carbide (HfC) nanotubes were synthesized by a one-step catalyst-assisted chemical vapor deposition (CVD) method. The typical nanotubes had uniform diameters of ∼60 nm and wall thicknesses of ∼15 nm and preferentially grew along [201]. From HRTEM/EELS analysis, the growth mechanism based on carbon nanotubes (CNT) tip growth and CNT-templated reaction was proposed for explaining the formation of HfC nanotubes. According to the mechanism, CNTs were first formed by diffusion of C atoms on the surface of solid Ni catalyst particles. Then, gaseous Hf species reacted with C atoms from CNTs to form HfC nanotubes. During the entire growth process, Hf atoms did not participate in the catalytic reaction. Thus, this process was distinguished from the conventional vapor-liquid-solid process.

Original language	English
Pages (from-to)	48-51
Number of pages	4
Journal	Journal of the American Ceramic Society
Volume	97
Issue number	1
DOIs	https://doi.org/10.1111/jace.12678
State	Published - Jan 2014

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abstract = "Single-crystalline hafnium carbide (HfC) nanotubes were synthesized by a one-step catalyst-assisted chemical vapor deposition (CVD) method. The typical nanotubes had uniform diameters of ∼60 nm and wall thicknesses of ∼15 nm and preferentially grew along [201]. From HRTEM/EELS analysis, the growth mechanism based on carbon nanotubes (CNT) tip growth and CNT-templated reaction was proposed for explaining the formation of HfC nanotubes. According to the mechanism, CNTs were first formed by diffusion of C atoms on the surface of solid Ni catalyst particles. Then, gaseous Hf species reacted with C atoms from CNTs to form HfC nanotubes. During the entire growth process, Hf atoms did not participate in the catalytic reaction. Thus, this process was distinguished from the conventional vapor-liquid-solid process.",

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T1 - Catalyst-assisted growth of single-crystalline hafnium carbide nanotubes by chemical vapor deposition

AU - Tian, Song

AU - Li, Hejun

AU - Zhang, Yulei

AU - Ren, Jincui

AU - Qiang, Xinfa

AU - Wang, Jie

PY - 2014/1

Y1 - 2014/1

N2 - Single-crystalline hafnium carbide (HfC) nanotubes were synthesized by a one-step catalyst-assisted chemical vapor deposition (CVD) method. The typical nanotubes had uniform diameters of ∼60 nm and wall thicknesses of ∼15 nm and preferentially grew along [201]. From HRTEM/EELS analysis, the growth mechanism based on carbon nanotubes (CNT) tip growth and CNT-templated reaction was proposed for explaining the formation of HfC nanotubes. According to the mechanism, CNTs were first formed by diffusion of C atoms on the surface of solid Ni catalyst particles. Then, gaseous Hf species reacted with C atoms from CNTs to form HfC nanotubes. During the entire growth process, Hf atoms did not participate in the catalytic reaction. Thus, this process was distinguished from the conventional vapor-liquid-solid process.

AB - Single-crystalline hafnium carbide (HfC) nanotubes were synthesized by a one-step catalyst-assisted chemical vapor deposition (CVD) method. The typical nanotubes had uniform diameters of ∼60 nm and wall thicknesses of ∼15 nm and preferentially grew along [201]. From HRTEM/EELS analysis, the growth mechanism based on carbon nanotubes (CNT) tip growth and CNT-templated reaction was proposed for explaining the formation of HfC nanotubes. According to the mechanism, CNTs were first formed by diffusion of C atoms on the surface of solid Ni catalyst particles. Then, gaseous Hf species reacted with C atoms from CNTs to form HfC nanotubes. During the entire growth process, Hf atoms did not participate in the catalytic reaction. Thus, this process was distinguished from the conventional vapor-liquid-solid process.

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Catalyst-assisted growth of single-crystalline hafnium carbide nanotubes by chemical vapor deposition

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