1 article(s) from Agafonov, Alexander V
Figure 1: Small-angle XRD patterns of the raw MM, Ti-MM, TiO2-PMMх, and TiO2-PMMHх (see Experimental section ...
Figure 2: XRD patterns of the raw MM and TiO2-PMMx, and TiO2-PMMHx, where М, C, А, and R represent montmorill...
Figure 3: FTIR spectra of the raw MM, and TiO2-pillared MM.
Figure 4: Thermogravimetric analysis (TGA)/differential scanning calorimetry (DSC) curves of the raw MM, Ti-M...
Figure 5: SEM images and EDS spectra of the surface of (a) TiO2-PMM500, and (b) TiO2-PMMH500.
Figure 6: Nitrogen adsorption/desorption isotherms (а) and pore size distribution (b) of the raw MM, TiO2-PMMx...
Figure 7: Kinetic curves of methyl orange dye adsorption at 20 °C by the TiO2-PMMx, and TiO2-PMMНx samples.
Figure 8: Kinetic curves of rhodamine B dye adsorption at 20 °C by the TiO2-PMMx, and TiO2-PMMНx samples.
Figure 9: Adsorption isotherms of (a) MO and (b) RhB dyes at T = 20 °C.
Figure 10: Removal of methyl orange (MO) on the TiO2-PMMx, TiO2-PMMНx samples used as photocatalysts and that ...
Figure 11: Removal of RhB on the TiO2-PMMx, TiO2-PMMНx samples used as photocatalysts and those without photoc...
Figure 12: Comparison of photocatalytic activity of TiO2-pillared MM with the commercial photocatalyst Degussa...
Figure 13: SEM image of the surface of original MM.
Figure 14: The fluorescence spectrum of an intercalating solution of titanium polyhydroxo complexes.
Figure 15: The dynamic light scattering (DLS) spectrum.