Theoretical study of CO adsorption on the surface of BN, AlN, BP and AlP nanotubes

Behavior of CO adsorption on the surface of BN, AlN, BP, and AlP nanotubes was investigated using density functional theory calculations, by means of B3LYP and B97D functionals. It was found that energetic feasibility of this process depends on several factors including LUMO energy level of tubes, electron density, and length of the surrounding bonds of adsorbing atoms plus their hybridization. These factors compete against each other to specify the adsorption behavior of the tubes. Frontier molecular orbital theory (FMO) and structural analyses show that high energy level of LUMO and short bond lengths of the tube surfaces prevent the adsorption of CO on BN nanotubes. The results suggest that the AlN nanotubes are energetically the most favorable cases toward the CO adsorption. It was found that B97D functional changes the absolute energy values of B3LYP results, but it doesnʹt change their relative-order of magnitudes.