By comparing three SEM images of Figure 3, one can see that the concentration of PVP has less influence on the yield of silver nanowires when PVPMW=1,300,000 was used. However, it is found that the concentration of PVP contributes to the control of diameter
of the synthesized nanowire. In Figure 3a, there are short nanorods, long nanowires, and some nanoparticles selleck chemicals (<10%). Figure 3b shows the yield of silver nanowires with uniform diameter and length increased to about 95% which is similar to the result shown in Figure 3c. From the above comparison study, it should be noted that varying the MWs of PVP is more efficient on the shape control of silver nanocrystals than varying the concentrations of PVP. Figure 3 SEM images of silver nanocrystals obtained by varying the concentration of PVP MW=1,300,000 . (a) 0.143 M, (b) 0.286 M, and (c) 0.572 M. Optical property
characterization UV-visible NIR spectrophotometer can also be used to confirm the morphologies of silver nanocrystals. The resonance bands of the plasmonic nanocrystals are mainly dependent on the distribution of the electromagnetic field on the surface of the metal nanocrystals. In other words, metal nanoparticles with selleckchem different shapes and sizes should have different optical signatures. Figure 4a exhibits the extinction spectra of the silver solution with different PVPs at 0.286 M. As shown in Figure 4a, the rodlike shape prepared with PVPMW=8,000 has a broad scattering Carnitine palmitoyltransferase II band from the visible to the near-infrared wavelengths leading to the white color shown in the inset in Figure 1a. Because the structure joined together can trap light effectively [30], such rodlike nanostructure can be used as a hot spot. The extinction
spectra of the silver nanostructure solution using PVPMW=29,000 have a main resonance peak at 430 nm and a shoulder peak at 360 nm corresponding to the nanosphere [17]. In comparison, that of PVPMW=40,000 exhibits a redshift and broader absorption range GDC 0068 ascribed to the irregular shapes of the products. In the extinction spectrum of the solution with PVPMW=1,300,000, there are two resonance peaks at 390 and 350 nm belonging to the optical signature of silver nanowire [19]. Figure 4 The optical characteristics of the silver solution. (a) The extinction spectra of the silver nanostructure solution obtained with different PVPs of 0.286 M. (b) The extinction spectra of the silver nanostructure solution obtained at different concentrations of PVPMW=29,000, (c) The extinction spectra of the silver nanostructure solution obtained at different concentrations of PVPMW=40,000. (d) The extinction spectra of the silver nanostructure solution obtained at different concentrations of PVPMW=1,300,000. Figure 4b,c,d shows the extinction spectra of the silver nanostructure solution obtained at different concentrations of PVPMW=29,000, PVPMW=40,000, and PVPMW=1,300,000, respectively.