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Beilstein J. Nanotechnol. 2015, 6, 428–437, doi:10.3762/bjnano.6.43
Figure 1: Schematic diagram for the synthesis of Pd/TiO2 trough solar-assisted photodeposition.
Figure 2: FESEM images of a) low magnification, b,c) high magnification of 0.5 wt % Pd/TiO2. The inset of c) ...
Figure 3: X-ray diffraction patterns of a) TiO2, b) 0.5 wt % Pd/TiO2, c) 1.0 wt % Pd/TiO2 and d) 3.0 wt % Pd/...
Figure 4: Raman spectra of a) TiO2, b) 0.5 wt % Pd/TiO2, c) 1.0 wt % Pd/TiO2 and d) 3.0 wt % Pd/TiO2.
Figure 5: Adsorption–desorption isotherm of 0.5 wt % Pd/TiO2 and the inset is the pore size distribution.
Figure 6: Core level XPS spectra of a) Ti 2p and b) Pd 3d of 0.5 wt % Pd/TiO2.
Figure 7: UV–vis absorption spectra of a) TiO2, b) 3.0 wt % Pd/TiO2, c) 0.5 wt % Pd/TiO2 and d) 1.0 wt % Pd/T...
Figure 8: Photoluminescence spectra of a) TiO2, b) 0.5 wt % Pd/TiO2, c) 3.0 wt % Pd/TiO2 and d) 1.0 wt % Pd/T...
Figure 9: Photocatalytic degradation rates of AMX under visible light irradiation.
Figure 10: Schematic diagram of electron transfer and degradation mechanism of AMX.
Figure 11: Recycled photocatalytic degradation rates of AMX (0.5 wt % Pd/TiO2).
Figure 12: The kinetics of AMX degradation by prepared TiO2 and various Pd loading photocatalysts.