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Volume 11 Issue 6
Dec.  2004
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Ailing Fan, Wenhuai Tian, and M. Kurosaki, Effect of current density on the morphology of Zn electrodeposits, J. Univ. Sci. Technol. Beijing, 11(2004), No. 6, pp. 529-532.
Cite this article as:
Ailing Fan, Wenhuai Tian, and M. Kurosaki, Effect of current density on the morphology of Zn electrodeposits, J. Univ. Sci. Technol. Beijing, 11(2004), No. 6, pp. 529-532.
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Materials

Effect of current density on the morphology of Zn electrodeposits

  • 通讯作者:

    Ailing Fan    E-mail: ailingfan@sina.com

  • The effect of current density on the morphology of Zn electrodeposits prepared by a flow-channel cell was investigated by scanning electron microscopy (SEM). It was found that the morphology of Zn electrodeposits evolves from thin-layered hexagonal η-phase crystals to pyramidal η-phase particles with increasing the current density. The morphological evolution at various flow rates was also examined and the results show that the morphological evolution at a lower flow rate is more remarkable than that at a higher flow rate with increasing the current density. To reveal the mechanism of the morphological evolution in detail, the atomic configuration on both (0001)η and {1100}η planes under different current densities was investigated, it was noted that a specify current density could provide a good condition for the layered epitaxial growth of hexagonal η-phase.
  • Materials

    Effect of current density on the morphology of Zn electrodeposits

    + Author Affiliations
    • The effect of current density on the morphology of Zn electrodeposits prepared by a flow-channel cell was investigated by scanning electron microscopy (SEM). It was found that the morphology of Zn electrodeposits evolves from thin-layered hexagonal η-phase crystals to pyramidal η-phase particles with increasing the current density. The morphological evolution at various flow rates was also examined and the results show that the morphological evolution at a lower flow rate is more remarkable than that at a higher flow rate with increasing the current density. To reveal the mechanism of the morphological evolution in detail, the atomic configuration on both (0001)η and {1100}η planes under different current densities was investigated, it was noted that a specify current density could provide a good condition for the layered epitaxial growth of hexagonal η-phase.
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