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Growth of multiwall carbon nanocoils using Fe catalyst films prepared by ion sputtering – ERRATUM

Published online by Cambridge University Press:  27 June 2013

Dawei Li ,
Lujun Pan ,
Kun Liu ,
Wei Peng  and
Rashad Muhammad

Abstract

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Type
Erratum
Information
Journal of Materials Research , Volume 28 , Issue 14 , 28 July 2013 , pp. 1972 - 1975
Copyright
Copyright © Materials Research Society 2013 

doi: 10.1557/jmr.2013.107, Published by Cambridge University Press, 26 April 2013.

In Li et al. Reference Li, Pan, Liu, Peng and Muhammad1 , Figs. 2-5 are incorrectly ordered and labeled.

FIG. 2. Typical SEM images of the carbon deposits synthesized at 700 °C using Fe film catalysts deposited on SiO2 substrates by ion sputtering. (a) 24 nm and (c) 6 nm. (b) and (d) are the corresponding enlarged images of MWCNCs in (a) and (c). (e) and (f) show distributions of coil diameters and filament diameters of MWCNCs prepared using Fe films deposited on SiO2 substrates with different film thickness.

FIG. 3. Dependence of the MWCNCs and CNTs ratio with Fe film thickness.

FIG. 4. (a) Typical TEM image of the MWCNC synthesized using 17-nm-thick Fe film catalyst deposited on SiO2 substrate. (b-d) The corresponding HRTEM images of MWCNC of parts 1, 2 and 3 shown in (a).

FIG. 5. Raman spectra of carbon deposits prepared using Fe films deposited on (a) ITO and (c) SiO2 substrates with different film thickness. (b) and (d) show the corresponding variation of IG/ID ratio with Fe film thickness shown in (a) and (c).

The publisher regrets the mistake.

References

REFERENCE

Li, D., Pan, L., Liu, K., Peng, W., and Muhammad, R.: Growth of multiwall carbon nanocoils using Fe catalyst filmsprepared by ion sputtering. J. Mater. Res. 28(10), 13161325 (2013).Google Scholar
Figure 0

FIG. 2. Typical SEM images of the carbon deposits synthesized at 700 °C using Fe film catalysts deposited on SiO2 substrates by ion sputtering. (a) 24 nm and (c) 6 nm. (b) and (d) are the corresponding enlarged images of MWCNCs in (a) and (c). (e) and (f) show distributions of coil diameters and filament diameters of MWCNCs prepared using Fe films deposited on SiO2 substrates with different film thickness.

Figure 1

FIG. 3. Dependence of the MWCNCs and CNTs ratio with Fe film thickness.

Figure 2

FIG. 4. (a) Typical TEM image of the MWCNC synthesized using 17-nm-thick Fe film catalyst deposited on SiO2 substrate. (b-d) The corresponding HRTEM images of MWCNC of parts 1, 2 and 3 shown in (a).

Figure 3

FIG. 5. Raman spectra of carbon deposits prepared using Fe films deposited on (a) ITO and (c) SiO2 substrates with different film thickness. (b) and (d) show the corresponding variation of IG/ID ratio with Fe film thickness shown in (a) and (c).