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W2000761163 startingPage "384" @default.
W2000761163 abstract "Unlike two-step chemical vapor deposition (CVD) methods using pre-deposited catalyst particles, in a continuous-feed CVD process, the liquid feed (consisting of catalytic precursor and hydrocarbon source) is continuously supplied into the reactor causing catalyst particle formation, nucleation of carbon nanotubes (CNTs) and CNT growth to occur simultaneously throughout the reaction period. In order to observe these processes, CVD experiments were conducted for different durations (30 s to 3 h) and the product multiwalled carbon nanotubes (MWCNTs) were characterized using scanning electron microscopy. It was found that the nanotubes did not grow in the vapor phase and that substrates played an important role in the growth by providing a place for them to anchor before growth took place. Based on transmission electron microscopy images, it has been suggested that MWCNTs grew by root-growth mechanism from the catalyst particles that were deposited on the substrate during the early stages. At long process times, continuously supplied feed gas produced additional catalyst particles which were deposited mostly on the growing nanotube mat. Due to weak catalyst–mat interaction, the additional nanotubes grew by tip growth. A comprehensive MWCNT growth model has been presented for the continuous-feed CVD." @default.
W2000761163 created "2016-06-24" @default.
W2000761163 creator A5013418213 @default.
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W2000761163 date "2009-02-01" @default.
W2000761163 modified "2023-09-25" @default.
W2000761163 title "Growth kinetics of MWCNTs synthesized by a continuous-feed CVD method" @default.
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W2000761163 cites W1975825463 @default.
W2000761163 cites W1976774331 @default.
W2000761163 cites W1980991914 @default.
W2000761163 cites W1983683707 @default.
W2000761163 cites W1984998017 @default.
W2000761163 cites W1986538434 @default.
W2000761163 cites W1989006480 @default.
W2000761163 cites W2001565917 @default.
W2000761163 cites W2007018190 @default.
W2000761163 cites W2009078549 @default.
W2000761163 cites W2016298783 @default.
W2000761163 cites W2017209152 @default.
W2000761163 cites W2020365123 @default.
W2000761163 cites W2031245995 @default.
W2000761163 cites W2034632463 @default.
W2000761163 cites W2034847880 @default.
W2000761163 cites W2037429506 @default.
W2000761163 cites W2038004481 @default.
W2000761163 cites W2039340971 @default.
W2000761163 cites W2039503911 @default.
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W2000761163 doi "https://doi.org/10.1016/j.carbon.2008.10.022" @default.
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