The proposed growth mechanism is described in the next section T

This formation of flower-shaped structures was not observed for the growth of ZnO nanorods on oxidized bilayer graphene and SL graphene as reported by Xu et al. and Aziz et al., respectively [29, 30]. The proposed growth mechanism is described in the next section. The density of rods was determined by averaging the quantities of rods calculated at three different areas on each sample with a total area size of 125 μm2 for each area, and then, the obtained value was normalized to square Selleckchem Erismodegib centimeters (cm2). It is noted

that the numbers of rods in such a large area size of 125 μm2 were obtained from the summation of rods contributed by five FESEM surface morphological images where each image had the area dimension of 5 μm × 5 μm. It is noted here that the actual density of each sample should be higher since the calculated quantity is not considering the unobservable rods of flower-shaped

structures. Table 1 summarizes the density, diameter, length, and aspect ratio of the grown ZnO structures and the comparison with other works. Here, the calculated densities of rods for samples at current densities of −0.5, −1.0, −1.5, and −2.0 mA/cm2 were estimated to be around 7.95 × 108, 7.11 × 108, 1.67 × 108, and 4.18 × 107 cm−2, respectively. The density is 1 order larger than the density of nanorods grown by the hydrothermal method [15] and in the same order with the estimated nanorods grown by the electrochemical process on oxidized graphene layer reported by Xu et al. and on single-layer graphene reported by Aziz et al. [29, 30]. The current applied in the electrochemical process seems to induce and promote the growth of ZnO rods/flower-shaped NSC23766 clinical trial structures with high density. Table 1 Density, diameter, length and aspect ratio of the grown ZnO rods   Current density (mA/cm 2) Density (cm −2) Diameter of rods (nm) Length of rods (nm) Aspect ratio This work Tangeritin −0.5 7.95 × 108

170 to 240 810 to 1,220 5.10 −1.0 7.11 × 108 240 to 360 1,120 to 1,990 5.40 −1.5 1.67 × 108 900 to 1,160 400 to 840 0.55 −2.0 4.18 × 107 1,470 to 1,940 520 to 1,020 0.45 [15] – 3.00 × 107 680 1,400 2.10 [29] −0.15 5.83 × 108 370 to 780 – -   −0.1 1.84 × 107 190 to 450 450 to 1,160 2.32   −0.5 1.37 × 109 260 to 480 840 to 1,160 2.70 [30] −1.0 1.24 × 108 660 to 1,000 150 to 340 0.28 −1.5 3.42 × 107 950 to 1,330 200 to 560 0.34 −2.0 2.32 × 107 570 to 2,030 1,160 to 2,220 1.14 Figure 3a shows the XRD spectra of the as-grown ZnO rods on ML graphene at different current densities. The diffraction peaks of ZnO at approximately 31.94°, approximately 34.58°, and approximately 36.44° (reference code 98-008-1294, code 98-005-5014) were recorded which belong to (010), (002), and (011) planes, respectively. These diffraction peaks show that the grown ZnO nanostructures were having wurtzite structure [6].

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