摘要

We performed density functional theory calculations for nitrogen-doped models of the representative structures of (6,0) zigzag and (4,4) armchair aluminum phosphide nanotubes (AlPNTs). Our results indicate that the optimized bond distances and tip diameters do not detect the effects of the N-doped regions; however, the effects are observed for the band gap energies and dipole moments. It is noted that substitution of the P atom by the N atom does not influence the value of band gap energy for this N-doped model. The results also indicate that the tendency of the Al atom for contribution to the Al-N bond is stronger than the tendency of the P atom for contribution to the N-P bond; therefore, the latter form of substitution makes the AlPNTs interesting as reactive materials towards other atoms or molecules, especially for the the zigzag AlPNT.

  • 出版日期2011-2