The relationship between the growth rate and the lifetime in carbon nanotube synthesis

We report an inverse relationship between the carbon nanotube (CNT) growth rate and the catalyst lifetime by investigating the dependence of growth kinetics for ∼330 CNT forests on the carbon feedstock, carbon concentration, and growth temperature. We found that the increased growth temperature led...

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Veröffentlicht in:	Nanoscale 2015-01, Vol.7 (19), p.8873-8878
Hauptverfasser:	Chen, Guohai, Davis, Robert C, Kimura, Hiroe, Sakurai, Shunsuke, Yumura, Motoo, Futaba, Don N, Hata, Kenji
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Sprache:	eng
Schlagworte:	Carbon Carbon nanotubes Catalysts Constants Ethylene Feedstock Forests Inverse
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creator	Chen, Guohai Davis, Robert C Kimura, Hiroe Sakurai, Shunsuke Yumura, Motoo Futaba, Don N Hata, Kenji
description	We report an inverse relationship between the carbon nanotube (CNT) growth rate and the catalyst lifetime by investigating the dependence of growth kinetics for ∼330 CNT forests on the carbon feedstock, carbon concentration, and growth temperature. We found that the increased growth temperature led to increased CNT growth rate and shortened catalyst lifetime for all carbon feedstocks, following an inverse relationship of a fairly constant maximum height. For the increased carbon concentration, the carbon feedstocks fell into two groups where ethylene/butane showed an increased/decreased growth rate and a decreased/increased lifetime indicating different rate-limiting growth processes. In addition, this inverse relationship held true for different types of CNTs synthesized by various chemical vapor deposition techniques and continuously spanned a 1000-times range in both the growth rate and catalyst lifetime, indicating the generality and fundamental nature of this behavior originating from the growth mechanism of CNTs itself. These results suggest that it would be fundamentally difficult to achieve a fast growth with a long lifetime. We report an inverse relationship between the carbon nanotube (CNT) growth rate and the catalyst lifetime by investigating the dependence of growth kinetics for ∼330 CNT forests on the carbon feedstock, carbon concentration, and growth temperature.
doi_str_mv	10.1039/c5nr01125f
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We found that the increased growth temperature led to increased CNT growth rate and shortened catalyst lifetime for all carbon feedstocks, following an inverse relationship of a fairly constant maximum height. For the increased carbon concentration, the carbon feedstocks fell into two groups where ethylene/butane showed an increased/decreased growth rate and a decreased/increased lifetime indicating different rate-limiting growth processes. In addition, this inverse relationship held true for different types of CNTs synthesized by various chemical vapor deposition techniques and continuously spanned a 1000-times range in both the growth rate and catalyst lifetime, indicating the generality and fundamental nature of this behavior originating from the growth mechanism of CNTs itself. These results suggest that it would be fundamentally difficult to achieve a fast growth with a long lifetime. 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source	Royal Society Of Chemistry Journals 2008-; Alma/SFX Local Collection
subjects	Carbon Carbon nanotubes Catalysts Constants Ethylene Feedstock Forests Inverse
title	The relationship between the growth rate and the lifetime in carbon nanotube synthesis
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