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Beilstein J. Nanotechnol. 2022, 13, 96–113, doi:10.3762/bjnano.13.7
Figure 1: Problems and sources associated with NOx air pollution (a) and NO photocatalysis over a semiconduct...
Figure 2: (a) Statistics of publication number on SnO2 materials (2017–06/2021). Data was extracted from Web ...
Figure 3: Ultraviolet–visible absorption spectra (a) and corresponding bandgaps of SQDs (b). Figure 3 was reprinted f...
Figure 4: (a) Natural growth faces of SnO2 are the (110), (100) (equivalent to (010) in rutile), and (101) (e...
Figure 5: The conversion processes of NO on perfect SnO2(110), SnO2−x(110) and O2 + SnO2−x(110) surfaces. Figure 5 wa...
Figure 6: SEM images of SnO2 microspheres synthesized by a hydrothermal method at 180 °C for 24 h. Figure 6 was repri...
Figure 7: NO photodegradation of materials under solar light (a), the dependence of concentration on irradiat...
Figure 8: Proposed mechanisms for photocatalytic NO oxidation via interfacial charge migration over BiOBr/SnO2...
Figure 9: NO photocatalytic degradation of materials under visible light irradiation (a), the dependence of c...
Figure 10: Photocatalytic NO removal efficacy over SnO2 (a), g-C3N4 (b) and g-C3N4/SnO2 (c) with scavengers un...
Figure 11: (a) Surface photovoltage spectroscopy, (b) transient photocurrent responses, (c) EIS Nyquist plots ...
Figure 12: A mechanism of NO photocatalytic oxidation over SnO2–Zn2SnO4/graphene. Figure 12 was reprinted from [75], Chemic...
Figure 13: (a) Diffuse reflectance spectra of SnO2 and SnO2/GQDs composites. Inset is the absorption spectrum ...
Figure 14: Gaussian fit of PL spectra with inserted images of sample color of SnO2 (a) and SnO2−x (b); and pro...
Figure 15: The proposed process of NO + O2 reaction over Ce–SnO2 under visible light irradiation. The ROS reac...
Figure 16: Decay and growth curves of primary ROS versus radiation time of SnO2 NPs (a) and Ag@SnO2 (b). Figure 16 was ...