Akademik Veri Yönetim Sistemi
Journal of Materials Science: Materials in Electronics, cilt.34, sa.10, 2023 (SCI-Expanded)
In the present work, single-layer and multi-layer Nb2O5 thin films were obtained by using sol–gel spin-coating technique and applying annealing temperature. The formation of hydroxyl on the Nb2O5 surface was determined by the FTIR technique. It is seen the structure turns into pure Nb2O5 form above 350 °C. Thickness effects on the structural and morphological properties of the annealed films were investigated by SIMS, XRD, XPS and AFM measurements. The thicknesses of the 1, 2 and 3-layered films are 65, 108 and 178 nm, respectively, and Nb2O5 films have amorphous structures even at an annealing temperature of 350 °C. RMS surface roughness of the films increased with increasing the film thickness increasing the stacked layers, while the 2-layered film has the highest surface area. After the characterizations have been defined, Ag interdigital electrodes were fabricated on the developed films with the Aerosol Jet Printing technique to produce H2 gas sensors whose active material is single-layer and multi-layer Nb2O5 thin films. The sensing performances of the sensors were examined with respect to film thickness under H2 concentrations ranging from 90 to 1200 ppm at operating temperature of 25 °C. Based on the 2-layered film, the sensor shows better hydrogen sensitivity, which can be at least partially caused by the higher surface area of the films and also associate with thickness of 108 nm. In addition, all fabricated sensors have good selectivity to H2 gas compared to the other gases such as CO, O2 and C3H8, as well as long-term stability over 90 days.