Formation of carbon nanostructures containing single-crystalline cobalt carbides by ion irradiation method

Carbon nanofibers (CNFs) with a diameter of 17 nm, and carbon nanoneedles (CNNs) with sharp tips have been synthesized on graphite substrates by ion irradiation of argon ions with the Co supplies rate of 1 and 3.4 nm/min, respectively. Energy dispersive X-ray spectrometry, combined with selected area electron diffraction patterns has been used to identify the chemical composition and crystallinity of these carbon nanostructures. The CNFs were found to be amorphous in nature, while the structures of the CNNs consisted of cubic CoCx, orthorhombic Co2C and Co3C depending on the cobalt content in the CNNs. The diameter of the carbide crystals was almost as large as the diameter of the CNN. Compared to the ion-induced nickel carbides and iron carbides, the formation of single-crystalline cobalt carbides might be due to the high temperature produced by the irradiation.

Research highlights▶ The carbon nanofibers and nanoneedles containing cobalt carbides have been synthesized by ion irradiation method. ▶ The formation mechanism of those carbon nanostructures has been described in detail in this paper. ▶ The results are of some significant value for researchers employing ion beam-related methods to fabricate carbon nanoscales.