The anodization at 5 V continued for 10 min to allow the equilibration of the barrier layer at the pore bottom. Finally, the template was obtained by a subsequent etching treatment in 5 wt.% phosphoric acid (35°C) for 30 min. Electrodeposition was performed on LK98II electrochemical system (Lanlike, Tianjin, China) using the single-potential-step chronoamperometry technique.
In the electrodeposition cell, the OPAA template with Al substrate, Pt plate, and saturated calomel electrode were used R406 order as the working electrode, the counter electrode, and the reference electrode, respectively. Samples Ag1 and Ag2 were electrochemically deposited in a mixture of 0.05 mol/L AgNO3 and 0.05 mol/L H3BO3 aqueous solutions at −6.5 V for 50 and 100 s, selleck chemical respectively. Samples Ag3, Ag4, and Ag5 were electrochemically deposited in a mixture of 0.01 mol/L AgNO3 and 0.01 mol/L H3BO3 aqueous solutions at a depositing potential of −6.5 V with deposition time of 2 s and interval time of 5 s. Experimental cycle times of 20, 50, and 100 were used for samples Ag3, Ag4, and Ag5, respectively. Sample Cu1 was electrochemically deposited in a mixture of 0.2 mol/L CuSO4 and 0.01 mol/L H3BO3 aqueous solutions at −6.0 V for
400 s. Samples Cu2, Cu3, and Cu4 were electrochemically deposited in a mixture of 0.01 mol/L Cu(NO3)2 and 0.1 mol/L H3BO3 aqueous solution at a depositing potential of −8.5 V with deposition time of 1 s and interval time of 5 s. Experimental cycle times of 150, 200, and 300 were used for samples Cu2, Cu3, and Cu4, respectively. Here, H3BO3 was used as buffer reagent. After deposition, the samples were rinsed with deionized water, and then, the Al substrate Nutlin-3 concentration was removed by 10 wt.% CuCl2 aqueous solutions. Hitachi (Chiyoda-ku, Japan) 3310 UV–vis spectrophotometer was used to measure optical absorption of these samples using an unpolarized light beam at normal Pictilisib price incidence to the sample plane. Quanta 200
FEG scanning electron microscope (FESEM) (FEI, Hillsboro, OR, USA) with an energy-dispersive X-ray spectroscope (EDS) was used to characterize the morphology and elemental composition. H-800 transmission electron microscope (TEM) (Hitachi Ltd., Chiyoda-ku, Japan) was used to analyze the morphology and microstructure of these samples. TEM samples were prepared by immersing a small piece of Ag/OPAA or Cu/OPAA film in 2 mol/L NaOH solution for about 5 h (60°C) in order to dissolve the OPAA template. Ag NCs or Cu NCs were afterward separated out of the solution by centrifugal effects. Finally, the deposit was ultrasonically dispersed in 3 to 5 mL ethanol, and a drop of the suspended solution was placed on a Cu grid with carbon membrane for TEM observation. Results and discussion Synthesis of Ag NCs Figure 1 gives SEM images of the ordered OPAA template.