2004
DOI: 10.1038/nature02278
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Atomic-scale imaging of carbon nanofibre growth

Abstract: The synthesis of carbon nanotubes with predefined structure and functionality plays a central role in the field of nanotechnology, whereas the inhibition of carbon growth is needed to prevent a breakdown of industrial catalysts for hydrogen and synthesis gas production. The growth of carbon nanotubes and nanofibres has therefore been widely studied. Recent advances in in situ techniques now open up the possibility of studying gas-solid interactions at the atomic level. Here we present time-resolved, high-resol… Show more

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Cited by 1,380 publications
(1,250 citation statements)
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References 25 publications
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“…Prominent examples in which TEM was used to gain insights into dynamic structure changes of catalysts are the restructurings of Cu surfaces of a Cu/ZnO catalyst in different gas atmospheres (see also Figures 5 and 6),46, 47 carbon nanofiber growth on a Ni catalyst during methane decomposition,14 and the refacetting of Pt nanocrystals during CO oxidation in a nanoreactor at 1 bar and at elevated temperatures 89…”
Section: Advancing the Characterization Methods: Following Dynamicsmentioning
confidence: 99%
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“…Prominent examples in which TEM was used to gain insights into dynamic structure changes of catalysts are the restructurings of Cu surfaces of a Cu/ZnO catalyst in different gas atmospheres (see also Figures 5 and 6),46, 47 carbon nanofiber growth on a Ni catalyst during methane decomposition,14 and the refacetting of Pt nanocrystals during CO oxidation in a nanoreactor at 1 bar and at elevated temperatures 89…”
Section: Advancing the Characterization Methods: Following Dynamicsmentioning
confidence: 99%
“…The new boundary conditions contrast most of the former and current chemical processes that are continuously run in a single, more or less optimal operation window. Notwithstanding, even under steady‐state conditions, dynamic changes are omnipresent in heterogeneous catalysis and electrocatalysis 11, 12, 13, 14, 15, 16…”
Section: Introductionmentioning
confidence: 99%
“…Significant advances in the understanding of the growth processes have generally been linked to their in-situ observation [4][5][6][7][8] , usually in specially-modified electron microscopes. The successful incorporation of carbon nanotubes into electronic devices, by exploiting their high-aspect ratios, their electronic structure and their conduction properties, requires control over the growth process and the resulting diameter, length and chirality of the nanotubes.…”
mentioning
confidence: 99%
“…The bulk diffusion model was proposed by Baker 4 , and explains the growth of the nanostructures as being driven by temperature and carbon solute concentration gradients within the catalyst. More importantly, the observations of Baker are based on direct observation of the growth process in a Controlled-Atmosphere Electron Microscope (CAEM) 4,5 , a transmission electron microscope (TEM) where the growth reaction can be observed in real time [6][7][8] . At the core of this model is the observation that the activation energies, derived from the measured growth rates, relate directly to the bulk diffusion of carbon into the respective catalyst (Ni, Co, Fe).…”
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confidence: 99%
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