Samples were withdrawn regularly from the reactor, and dispersed powders were removed in a centrifuge. The clean transparent solution was analyzed by a UV–vis spectrophotometer (Optizen POP, Mecasys Co., Ltd., Daejeon, Korea). The dye concentration in the solution was determined as a function of the irradiation time. Results and discussion The result is agreement with XRD results for titanium and CdSe. After the examinations of wounds conducted by the coated implements www.selleckchem.com/products/azd6738.html with SEM/EDX, special particles were found; they are

kinds of elements such as Cd, Se, Ti, O and C. Table 1 lists the numerical results of EDX quantitative microanalysis of the samples. Figure 2 shows that strong Kα and Kβ peaks from the Ti element appear at 4.51 and 4.92 keV, respectively, whereas a moderate Kα peak for O was observed at 0.52 keV [18]. There were some small impurities, which were attributed to the use of fullerene without purification. Table 1 EDX elemental microanalysis and BET surface area see more values Sample name C (%) O (%) Cd (%) Se (%) Ti (%) Impurity BET (m2/g) C60 99.99 – - – - 0.01 85.05 CdSe – 3.41 57.37 36.45 -

2.77 26.71 CdSe-TiO2 – 23.57 24.34 14.52 35.46 2.14 30.47 CdSe-C60/TiO2 5.14 19.63 34.78 16.71 22.21 1.53 47.27 Figure 2 EDX elemental microanalysis of CdSe (a), CdSe-TiO 2 (b), and CdSe-C 60 /TiO 2 (c), they are kinds of elements such as Cd, Se, Ti, O and C. Figure 3 shows the characterized BAY 11-7082 results of the microsurface structures and morphology of the CdSe, CdSe-TiO2, and C60 modified CdSe-TiO2 compounds. As shown in Figure 3, C60 and CdSe are coated uniformly on the TiO2 surface, which leads to an increase in nanoparticle size. Zhang et al. reported that a good dispersion of small particles could provide more reactive sites for the reactants than aggregated particles [19]. The surface roughness appears to be more with little grain aggregation. Figure 3a,b,c is CdSe, CdSe-TiO2, and CdSe-C60/TiO2, respectively. The aggregation phenomenon becomes increasingly serious, and the CdSe addition can make the aggregation

worse. Figure 3c shows spherical C60 particles. Figure 3 SEM images of CdSe (a), CdSe-TiO 2 (b), and CdSe-C 60 /TiO 2 (c), different samples with different magnification. Table 1 lists Brunauer-Emmett-Teller (BET) surface areas of the raw CdSe, CdSe-TiO2, and CdSe-C60/TiO2 3-oxoacyl-(acyl-carrier-protein) reductase photocatalysts. The BET value decreased from 85.00 m2/g of pure fullerene to 47.27 m2/g of CdSe-C60/TiO2. The TiO2 and CdSe particles were introduced into the pores of fullerene, and the value of CdS-C60/TiO2 decreased [20]. Added C60 can increase the surface area because C60 has a relatively larger surface area. The BET values of CdSe and CdSe-TiO2 compounds were 26.71 and 30.47 m2/g, respectively. The BET surface area of the CdS-TiO2 photocatalyst was increased by 55.13 % when the CdSe-TiO2 particles were modified by C60.