0.214 nm, corresponding to the (121) planes of NiMoO4 nanosheets (Figure 4b,c). The EDS mapping images confirm that the NiMoO4 shell material is effectively coated on the backbone of the NiCo2O4 nanowire, as displayed in Figure 4d. The development of a 3D interconnected network is ...
According to the radius data obtained from these three circles, three d-values were calculated to be d1 = 0.210 nm, d2 = 0.170 nm, and d3 = 0.131 nm and indexed as (119), (137), and (336) crystal planes of the NTP phase. Overall, the synthesized NTP/VGCF@C composite material ...
For the NFF binderless composite board, the peaks at 2θ = 16.7° and 22.6° corresponded to the (101) and (002) planes of cellulose [25]. The diffraction peaks at 18.4°, 30.3°, 35.4°, 43.5°, 53.8°, 57.5°, and 62.8° corresponded to the (111), (220), (311), (400), (...
As shown in Figure 3, when increasing the temperature up to 50 ◦C, both the peak intensity of the (100) planes and their full width at half maximum (FWHM) increase. This simultaneous increase in peak intensity and FWHM respectively indicate that the number of the (100) planes increased...
Figure 2b,c, show that the magnetic Fe3O4 particles are dispersed on the edges and the wrinkles of rGO's basal planes at a high density. The void blanks between Fe3O4 particles indicate that the presence of rGO successfully prevents the aggregation of Fe3O4 particles. The length of the...