Structures, Interactions, and Ferromagnetism of Fe−Carbon Nanotube Systems

Abstract

The structures, interaction, and magnetic properties of Fe atoms with a single-wall carbon nanotube are investigated using Car−Parrinello molecular dynamics. The stability, band gap, Fermi energy, and total magnetic moment of the Fe-adsorbed single-wall carbon nanotube systems are found to depend on the location of the Fe atoms relative to the carbon nanotube surface. The confinement and the curvature of nanotubes have a strong effect on the relative stability of various structures corresponding to different positions of the Fe atom inside and outside carbon nanotubes. The Fe atoms inside a carbon nanotube are found to couple ferromagnetically.