Record link: 
http://hdl.handle.net/20.500.12708/152182
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Title: 
Low temperature growth of carbon nanotubes on tetrahedral amorphous carbon using Fe–Cu catalyst
en
Citation: 
Cartwright, R. J., Esconjauregui, S., Hardeman, D., Bhardwaj, S. P., Weatherup, R. S., Guo, Y., D´Arsié, L., Bayer, B. C., Kidambi, P. R., Hofmann, S., Wright, E., Clarke, J., Oakes, D., Cepek, C., & Robertson, J. (2015). Low temperature growth of carbon nanotubes on tetrahedral amorphous carbon using Fe–Cu catalyst. Carbon, 81, 639–649. https://doi.org/10.1016/j.carbon.2014.10.001
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Publisher DOI: 
10.1016/j.carbon.2014.10.001
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Publication Type: 
Article - Original Research Article
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Language: 
English
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Authors: 
Cartwright, Richard J. 
Esconjauregui, Santiago 
Hardeman, David 
Bhardwaj, Sunil P. 
Weatherup, Robert S. 
Guo, Yuzheng 
D´Arsié, Lorenzo 
Bayer, B. C. 
Kidambi, P. R. 
Hofmann, Stephan 
Wright, Eleanor 
Clarke, J. 
Oakes, Daniel 
Cepek, C. 
Robertson, John 
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Journal: 
Carbon 
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ISSN: 
0008-6223
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Date (published): 
Jan-2015
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Number of Pages: 
11
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Publisher: 
PERGAMON-ELSEVIER SCIENCE LTD
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Peer reviewed: 
Yes
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Keywords: 
General Materials Science; General Chemistry
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Abstract: 
We report the growth of carbon nanotubes on tetrahedral-amorphous carbon using a Fe-Cu catalyst system at temperatures <500 °C. By X-ray photoemission spectroscopy, we show that Cu forms an alloy with Fe during the process of catalyst pretreatment. This not only dramatically enhances the catalytic activity of Fe towards the nucleation of nanotubes at low temperatures, but simultaneously reduces its propensity to diffuse into the bulk of carbon-based substrates, thus minimising support damage. Such results prove the feasibility of growing nanotubes directly on carbon fibres, highlighting their potential for use in composites and fuel cell electrodes.
de
Research Areas: 
Surfaces and Interfaces: 60%
Materials Characterization: 40%
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Science Branch: 
Chemie
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