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W2128100494 startingPage "350" @default.
W2128100494 abstract "A simple approach using ∼90 nm Ni nanoparticles to tune the growth of carbon fibers is developed basing on the bottom-up regulation in this study. By adjusting the preparing temperature and atmospheric composition, the nickel-containing catalysts with specific sizes and shapes are alternately prepared from 90 nm to 500 nm. The straight carbon nanofibers and three kinds of carbon coils (single-helix carbon nanocoils, single-helix carbon microcoils and twinning double-helix carbon microcoils) with the coil diameter ranging from 150 nm to 3 μm are achieved by using the as-prepared catalyst. The relationship between the carbon coil and catalyst particle, and the growth mechanism for different kinds of helices are discussed in details. The results suggest that catalytic anisotropy come from growing tendency and rate of carbon deposition on the facets, edges and vertices of catalyst grain. The twinning structure exists in each fiber of the double-helix carbon microcoils regardless of circular or flat fiber, which is separated by the tip of the catalyst particle due to the different rate of carbon deposition at edge and vertex." @default.
W2128100494 created "2016-06-24" @default.
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W2128100494 date "2014-05-01" @default.
W2128100494 modified "2023-09-22" @default.
W2128100494 title "Controllable synthesis of carbon coils and growth mechanism for twinning double-helix catalyzed by Ni nanoparticle" @default.
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W2128100494 cites W1965780534 @default.
W2128100494 cites W1966354219 @default.
W2128100494 cites W1968141509 @default.
W2128100494 cites W1974100144 @default.
W2128100494 cites W1983043324 @default.
W2128100494 cites W1993609441 @default.
W2128100494 cites W1994208192 @default.
W2128100494 cites W2000522222 @default.
W2128100494 cites W2001540626 @default.
W2128100494 cites W2003182002 @default.
W2128100494 cites W2008297363 @default.
W2128100494 cites W2008422130 @default.
W2128100494 cites W2010933078 @default.
W2128100494 cites W2012840149 @default.
W2128100494 cites W2013014234 @default.
W2128100494 cites W2016153203 @default.
W2128100494 cites W2017238852 @default.
W2128100494 cites W2020004604 @default.
W2128100494 cites W2020062795 @default.
W2128100494 cites W2023460785 @default.
W2128100494 cites W2025662563 @default.
W2128100494 cites W2030741087 @default.
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W2128100494 cites W2051215101 @default.
W2128100494 cites W2052177104 @default.
W2128100494 cites W2052901802 @default.
W2128100494 cites W2061934570 @default.
W2128100494 cites W2069853751 @default.
W2128100494 cites W2076701365 @default.
W2128100494 cites W2076789090 @default.
W2128100494 cites W2078999093 @default.
W2128100494 cites W2080509585 @default.
W2128100494 cites W2080876325 @default.
W2128100494 cites W2088650439 @default.
W2128100494 cites W2094083769 @default.
W2128100494 cites W2099834723 @default.
W2128100494 cites W2103947322 @default.
W2128100494 cites W2105115138 @default.
W2128100494 cites W2106794763 @default.
W2128100494 cites W2124250609 @default.
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W2128100494 doi "https://doi.org/10.1016/j.compositesb.2013.06.010" @default.
W2128100494 hasPublicationYear "2014" @default.
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