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Sol-Gel Multilayered Niobium (Vanadium)-Doped TiO 2 for CO Sensing and Photocatalytic Degradation of Methylene Blue.

Simeon SimeonovAnna SzekeresMaria CoveiHermine StroescuMadalina NicolescuPaul CheslerCristian HornoiuMariuca Gartner
Published in: Materials (Basel, Switzerland) (2024)
Multilayered TiO 2 films doped either with Niobium or Vanadium (1.2 at. %) were deposited by the sol-gel dip coating method on c-Si and glass substrates. The films on glass substrates were tested for CO sensing and photocatalytic degradation of methylene blue. X-ray diffraction data analysis showed that all the TiO 2 :Nb(V) films were nanocrystalline in the anatase phase, with a uniform and compact microstructure and a homogeneous superficial structure of small grains with diameters in the range of 13-19 nm. For the electrical characterization, the TiO 2 :Nb(V) films were incorporated in Metal-Insulator-Semiconductor (MIS) structures. The specific resistivity is of the order of 10 4 Ωcm and its value decreases with increasing the electrical field, which testifies to the injection of electrons into these layers. From the analysis of the current-voltage curves taken at different temperature- and frequency-dependent capacitance-voltage and conductance-voltage characteristics, the density and parameters of deep levels in these TiO 2 films are evaluated and the electron charge transport mechanism is established. It was shown that the current in these TiO 2 :Nb(V)-Si MIS structures is mainly carried out by inter-trap tunneling via deep levels energetically distributed in the TiO 2 bandgap. Testing these sol-gel TiO 2 :Nb(V) layers for gas sensing and photocatalytic capabilities proved that they could serve such purposes. In particular, the results of the V-doped sol-gel TiO 2 film confirm its CO detection capability, which is rarely reported in the literature. For the photodegradation of methylene blue, the Nb-doped TiO 2 samples were superior, with nearly double the photocatalytic efficiency of undoped TiO 2 .
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