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Beilstein J. Nanotechnol. 2016, 7, 1971–1982, doi:10.3762/bjnano.7.188
Figure 1: Scheme of the synthetic approach employed in the preparation of the ZnO/SiO2-clay heterostructures ...
Figure 2: XRD patterns for Cloisite® (A) and TSM (B) corresponding to: (a) the starting clay, (b) CTA+-exchan...
Figure 3: FE-SEM images of the heterostructures: (A) SiO2-CLO-CTA, (B) ZnO/SiO2-CLO, (C) SiO2-TSM-CTA and (D)...
Figure 4: TEM images of the heterostructures: (A) ZnO/SiO2-CLO and (B) ZnO/SiO2-TSM, in both images the arrow...
Figure 5: N2 adsorption–desorption isotherms (77 K) of SiO2-clay (a) and ZnO/SiO2-clay (b) heterostructures b...
Figure 6: XRD patterns of (a) starting sepiolite (SEP), (b) SEP-CTA organoclay, and (c) SiO2/SEP-CTA, (d) ZnO...
Figure 7: FE-SEM images of SiO2-SEP-CTA (A) and ZnO/SiO2-SEP (B) heterostructures, and TEM image of ZnO/SiO2-...
Figure 8: FTIR spectra (3750–3650 cm−1 region) of (a) pristine sepiolite (SEP), (b) SEP-CTA, and the (c) SiO2...
Figure 9: 29Si solid-state NMR spectra of (a) sepiolite and (b) ZnO/SiO2-SEP heterostructure.
Figure 10: N2 adsorption–desorption isotherms at 77 K for SiO2-SEP (a) and ZnO/SiO2-SEP (b) heterostructures.
Figure 11: C/Co (C0 = 3·10−5 M) of MB as a function of the UV irradiation time in presence of the heterostruct...
Figure 12: Photoactivity of ZnO NP and ZnO-SiO2-clay heterostructures showing degradation of ibuprofen in aque...