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Beilstein J. Nanotechnol. 2016, 7, 1684–1697, doi:10.3762/bjnano.7.161
Figure 1: XRD patterns of (a) graphite powder, (b) GO, (c) ZnO NR, (d) CdS NP, (e) CdS–ZnO and (f) CdS–ZnO–RG...
Figure 2: UV–vis diffuse reflectance spectra (DRS) of GO, ZnO NR, CdS NP, CdS–ZnO and CdS–ZnO–RGO nanocomposi...
Figure 3: Plots of the transformed Kubelka–Munk function vs the energy of light: (a) ZnO NR, (b) CdS NP, (c) ...
Figure 4: SEM images (a) GO sheet (b) CdS NP and (c, d) ZnO NR.
Figure 5: SEM images (a, b) CdS–ZnO binary nanocomposite and (c, d) CdS–ZnO–RGO ternary nanocomposite.
Figure 6: TEM Images (a) GO sheets, (b) CdS NP, (c) CdS–ZnO binary composite, (d) CdS–ZnO–RGO ternary composi...
Figure 7: FTIR spectra of (a) GO, (b) ZnO, (c) CdS, (d) CdS–ZnO and (e) CdS–ZnO–RGO nanocomposite.
Figure 8: UV–vis absorption spectra of GO, ZnO NR, CdS NP, CdS–ZnO and CdS–ZnO–RGO nanocomposite.
Figure 9: Time-dependent UV–vis spectra of photocatalytic degradation of MO: (a) visible light irradiation fr...
Figure 10: Kinetic curves for degradation of MO under (a) visible light irradiation from a solar simulator and...
Figure 11: Histogram showing the degradation rate (%) of MO under visible light irradiation from a solar simul...
Scheme 1: Possible mechanism of the photocatalytic activity of CdS–ZnO–RGO ternary nanocomposite for degradat...
Scheme 2: Possible mechanism of the photocatalytic activity of CdS–ZnO–RGO ternary nanocomposite for degradat...