Furthermore, when the concentration of GO solution was as high as 1 mg/mL, a thick layer of GO sheets were formed on Au electrodes (as shown
in Figure 3a, d). As the concentration of GO solution decreases, fewer GO sheets on the Au electrodes were observed (as shown in Figure 3b, c, e, f). Moreover, from the enlarged images (Figure 3e, f), we can observe that GO sheets bridged between Au electrodes have been successfully formed. The morphologies of electrodes assembled with lower GO concentration were not given here, CYT387 research buy since further decrease of GO concentration could not ensure the connectivity of Au electrodes by GO sheets. Saracatinib cell line Figure 3 SEM images of GO sheets bridged between Au electrodes self-assembled with different concentrations of GO. (a) and (d) 1 mg/mL, (b) and (e) 0.5 mg/mL, and (c) and (f) 0.25 mg/mL. After reduction of GO sheets on the electrodes by hydrazine, rGO bridged between Au electrodes was formed. As shown in Figure 4, all of the electrodes were covered with rGO sheets, which could ensure the electrical circuit be formed during the sensing detection. In addition, the number of rGO sheets decreased as the GO concentration decreases as well. Moreover, as for the GO concentration at 0.25 mg/mL, several rGO sheets were broken between the gaps of Au electrodes, which might be due to the strong
surface tension during the reduction process, which might have a great effect on the sensing properties of the resultant rGO devices. Figure 4 SEM images of Hy-rGO bridged between Au electrodes self-assembled with different PRN1371 in vivo concentrations of GO. (a) and (d) 1 mg/mL, (b) and (e) 0.5 mg/mL, and
(c) and (f) 0.25 mg/mL. The morphologies of Au electrodes assembled with Py-rGO have also been observed as shown in Figure 5. Similar with Hy-rGO, all of the electrodes were bridged by rGO sheets (as shown Etofibrate in Figure 5a, b, c, d, e, f). In addition, the enlarged images (as shown in Figure 5e, f) suggested that several GO sheets had been broken as well, and this phenomenon was much more severe when the GO concentration was as low as 0.25 mg/mL. Although this might affect the performance of the final devices, the connectivity of all of the electrodes by rGO sheets were fortunately achieved, which could be still used as sensing devices for gas detection. Figure 5 SEM images of Py-rGO bridged between Au electrodes self-assembled with different concentration of GO. (a) and (d) 1 mg/mL, (b) and (e) 0.5 mg/mL, and (c) and (f) 0.25 mg/mL. Raman spectroscopy is a powerful nondestructive tool to distinguish ordered and disordered crystal structure of carbon. Figure 6 exhibits the Raman spectra of GO, Hy-rGO, and Py-rGO after assembly of the electrodes with GO concentrations at (a) 1 mg/mL, (b) 0.5 mg/mL, and (c) 0.25 mg/mL with the excitation wavelength at 514 nm.