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Beilstein J. Nanotechnol. 2017, 8, 1205–1217, doi:10.3762/bjnano.8.122
Figure 1: FE-SEM images of NiO nanowires at different magnifications (top), SnO2 nanowires (middle) and ZnO n...
Figure 2: Raman spectrum of NiO nanowires deposited on alumina substrate measured in ambient air at room temp...
Figure 3: Raman spectrum of SnO2 nanowires deposited on alumina substrate measured in ambient air at room tem...
Figure 4: Raman spectrum of ZnO nanowires deposited on alumina substrates measured in ambient air at room tem...
Figure 5: SEM picture of WO3 nanowires on alumina substrate.
Figure 6: Raman spectrum performed on WO3 nanowire deposited on alumina substrate measured in ambient air at ...
Figure 7: SEM images of Nb2O5 nanoflowers at 25k (left) and 75k (right) magnification level.
Figure 8: Raman spectrum of Nb2O5 nanoflowers deposited on alumina substrate measured in ambient air at room ...
Figure 9: Dynamic response of NiO and Nb2O5 sensing devices towards (a) (CO; 50 ppm, NiO (300 °C) and Nb2O5 (...
Figure 10: Sensor response towards 50 ppm of CO (left) and 1 ppm of NO2 (right) as a function of the temperatu...
Figure 11: Calibration curves and power-law fitting for CO (left) and NO2 (right). The relative humidity was k...
Figure 12: Principal component analysis (PCA) score plot for drinking water (blue and green dots) and a soluti...
Figure 13: Content of VOCs over seven days of analysis.
Figure 14: Growth of 1D structures by evaporation–condensation.
Figure 15: Flow chart describing the synthesis process of tungsten oxide nanowires.
Figure 16: Flow chart describing the synthesis process for niobium oxide nanostructures by hydrothermal treatm...