Efficient photocatalytic activity in the visible range has been achieved with titanium oxide thin films. Doping, induced by oxygen deficiencies, is the key to the increased photodegradation properties of the film as both experimental and theoretical studies of the thin films demonstrate. The Figure shows an AFM image of the surface morphology of a TiO2 layer.
Doping TiO2 with nitrogen is recognized as a procedure to get sensitization of this material with visible light.
In the present work, incorporation of nitrogen within the structure of TiO2 thin films has been accomplished
by N2
+ ion implantation in TiO2 anatase thin films (50 keV ion energy for doses of 3 × 1016, 6 × 1016, and
1.2 × 1017 ions cm-2) and during preparation by metalorganic chemical vapor deposition (MOCVD) using
nitrogen as carrier gas. The analysis of the samples by X-ray photoemission spectroscopy (XPS) and for the
MOCVD samples also by secondary ion mass spectroscopy (SIMS) has shown that nitrogen, in the form of
nitride-like species, (N/Ti ratios of 0.03 and 0.12 for the MOCVD and the implanted samples, respectively)
has become effectively incorporated within the structure of TiO2. The water contact angle on the implanted
thin films varied from about 80° to around 30° when illuminated with visible light, depending on the ion
dose. Similarly, the MOCVD samples showed a sharp decrease in wetting contact angle under visible light
from about 80° to 55°. In the two cases, the thin films reach total hydrophilicity by posterior UV irradiation.
To account for these results, the possible existence of specific excitation mechanisms for visible or UV photons,
the former involving the incorporated nitrogen atoms, is discussed.
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