Low- and high-temperature controls in carbon nanofiber growth in reactive plasmas

A numerical growth model is used to describe the catalyzed growth of carbon nanofibers in the sheath of a low-temperature plasma. Using the model, the effects of variation in the plasma sheath parameters and substrate potential on the carbon nanofiber growth characteristics, such as the growth rate,...

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Veröffentlicht in:	Nanotechnology 2010-11, Vol.21 (45), p.455605-455605
Hauptverfasser:	Mehdipour, H, Ostrikov, K, Rider, A E
Format:	Artikel
Sprache:	eng
Schlagworte:	Carbon fibers Catalysts Mathematical models Nanofibers Nanomaterials Nanostructure Plasmas Sheaths
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container_title	Nanotechnology
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creator	Mehdipour, H Ostrikov, K Rider, A E
description	A numerical growth model is used to describe the catalyzed growth of carbon nanofibers in the sheath of a low-temperature plasma. Using the model, the effects of variation in the plasma sheath parameters and substrate potential on the carbon nanofiber growth characteristics, such as the growth rate, the effective carbon flux to the catalyst surface, and surface coverages, have been investigated. It is shown that variations in the parameters, which change the sheath width, mainly affect the growth parameters at the low catalyst temperatures, whereas the other parameters such as the gas pressure, ion temperature, and percentages of the hydrocarbon and etching gases, strongly affect the carbon nanofiber growth at higher temperatures. The conditions under which the carbon nanofiber growth can still proceed under low nanodevice-friendly process temperatures have been formulated and summarized. These results are consistent with the available experimental results and can also be used for catalyzed growth of other high-aspect-ratio nanostructures in low-temperature plasmas.
doi_str_mv	10.1088/0957-4484/21/45/455605
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subjects	Carbon fibers Catalysts Mathematical models Nanofibers Nanomaterials Nanostructure Plasmas Sheaths
title	Low- and high-temperature controls in carbon nanofiber growth in reactive plasmas
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