Selective growth of well-aligned carbon nanotubes by APCVD

Well-aligned good-quality carbon nanotube (CNT) array was grown on silicon substrate by atmospheric pressure chemical vapor deposition (APCVD) through SiO₂ masking. First, the patterned substrate was pretreated with NH₃ and then CNTs were synthesized at 800 °C using Ni as the catalyst, acetylene (C₂H₂) as the carbon source material and N₂ as the carrier gas. Effects of the NH₃-pretreatment time, the flow ratio of C₂H₂]/NH₃] and the CNT growth time on the qualities of CNT array were analyzed in detail. It was found that good-quality CNTs with an average length of around 15 μm could be grown by pretreating the Si substrate with NH₃ for 10 min and then conducting the CNT growth with a flow ratio of C₂H₂]/NH₃] = 30/100. Furthermore, the field emission property of CNT array was investigated using a diode structure. It was found that the turn-on electric field decreased with increasing CNT length. The turn-on electric field as low as about 2 V/μm with an emission current density of 10 μA/cm² was achieved for a CNT-array diode with the tube length near 18 μm. For the same device, the emission current density could be elevated to 10 mA/cm² with the applied voltage of 3.26 V/μm.