Plasma treatment of SnO₂ nanocolumn arrays deposited by liquid injection plasma-enhanced chemical vapor deposition for gas sensors

SnO₂ nanocolumn arrays have been grown on 4 in. SiO₂/Si substrates by liquid injection plasma-enhanced chemical vapor deposition. The nanocolumns are well-crystallized and aligned without any additional substrate heating and catalysts. Effects of the thermal annealing and O₂ plasma treatment on the sensing response to CO and H₂ gas were comparatively studied. It was found that the sensing response of the SnO₂ nanocolumn arrays was greatly enhanced by O₂ plasma treatment. The oxygen species and the stoichiometry of the as-deposited, annealed and plasma-treated samples were comparatively analyzed by X-ray photoelectron spectroscopy. The average composition ratio [O]_lattice/[Sn] increased continuously after annealing and O₂ plasma treatment. Plenty of oxygen species were chemisorbed on the surface of the SnO₂ nanocolumns during O₂ plasma treatment, resulting in the shift of binding energy O 1s for the plasma-treated sample to a higher value of 532.3 eV. The improvement in the sensing properties of the O₂ plasma-treated sample is closely related with the chemisorbed oxygen on the surface and obvious aging effects on the sensitivity were also observed on this sample.