The binding energies, geometric structures and electronic properties of molybde- num trioxide (MoO₃) molecule encapsulated inside (8, 0), (9, 0), (10, 0) and (14, 0) single-walled carbon nanotubes (SWNTs) have been investigated using density functional theory (DFT) method. Due to curvature effect, the calculated binding energy values are different, the variation of which indicated that the stability of MoO₃/SWNT systems increases with increasing the radius of SWNTs. At the same time, owing to the presence of MoO₃ molecule, the band gap of MoO₃/SWNTs systems decreases. The analysis of density of states (DOS) reveals hybridization between C-2p and Mo-4d and between C-2p and O-2p orbitals near the Fermi level, which results in electron transfer from SWNTs to MoO₃ molecule. The present computations suggest that electronic properties of SWNTs can be modified by doping MoO₃ molecule.