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Electrodeposition of nitrogenated carbon nanorods by a facile electrochemical method: microstructure and the growing process

Journal Article


Abstract


  • Highly nitrogenated carbon nanorods were first fabricated onto stainless steel plates by the electrolysis of a solution of dicyandimide in acetonitrile at ambient atmospheric pressure and low temperature. The nitrogenated carbon nanorods displayed the typically nanocrystalline/amorphous composite structure, which was composed of the irregular graphitic layers. A corresponding growth mechanism was proposed based on the structural characterization involving the liquid-solid process with the assistance of the iron catalytic effect.

Authors


  •   Wan, Shanhong
  •   Wang, Liping (external author)
  •   Xue, Qunji (external author)

Publication Date


  • 2010

Geographic Focus


Citation


  • Wan, S., Wang, L. & Xue, Q. (2010). Electrodeposition of nitrogenated carbon nanorods by a facile electrochemical method: microstructure and the growing process. Electrochemical and Solid-State Letters, 13 (11), K89-K92.

Scopus Eid


  • 2-s2.0-77956597137

Start Page


  • K89

End Page


  • K92

Volume


  • 13

Issue


  • 11

Abstract


  • Highly nitrogenated carbon nanorods were first fabricated onto stainless steel plates by the electrolysis of a solution of dicyandimide in acetonitrile at ambient atmospheric pressure and low temperature. The nitrogenated carbon nanorods displayed the typically nanocrystalline/amorphous composite structure, which was composed of the irregular graphitic layers. A corresponding growth mechanism was proposed based on the structural characterization involving the liquid-solid process with the assistance of the iron catalytic effect.

Authors


  •   Wan, Shanhong
  •   Wang, Liping (external author)
  •   Xue, Qunji (external author)

Publication Date


  • 2010

Geographic Focus


Citation


  • Wan, S., Wang, L. & Xue, Q. (2010). Electrodeposition of nitrogenated carbon nanorods by a facile electrochemical method: microstructure and the growing process. Electrochemical and Solid-State Letters, 13 (11), K89-K92.

Scopus Eid


  • 2-s2.0-77956597137

Start Page


  • K89

End Page


  • K92

Volume


  • 13

Issue


  • 11