3.1.3. XRDAs depicted in Fig. 3(a a

3.1.3. XRD
As depicted in Fig. 3(a and b), the crystal structure of the nanofibers annealed with the rate of 3 and 20 ◦ C/min was studied by XRD. In the 3cd0 and 20cd0 nanofiber samples, the XRD pat- terns can be indexed from the (100), (002), (101), (102), (110), (1 0 3) and (1 1 2) planes of ZnO wurtzite crystal with a hexagonal structure [6]. It is clearly observed characteristic peaks of the CdO cubic structure and their intensities increased with the amount of x. There were no new peaks in XRD spectra. It means that only two different metal oxides (ZnO and CdO) co-exist and hence no other crystallized structure was seen in the samples. There was no obvi- ous change in the peak position and crystal lattice constant in the XRD pattern of the nanofibers that indicates no Cd doping in the crystal structure occurred.
It is worth to note that the diffraction peaks of the samples prepared by the annealing rate of 20 ◦ C/min are more intense in comparison with the samples annealed at 3 ◦ C/min, show degree of crystallinity improved with increasing heating rate and this behav- ior was as reported by other researchers for ZnTiO3 nano-crystals [19] and ZnO nanocrystalline films [20]. Moreover, the full width at half-maximum (FWHM) of the main peak (1 0 1) varied by both the amount x and heating rate for the (ZnO)1−x(CdO)x nanofibers. The average crystalline size for all nanofibers was estimated using Debye–Scherrer formula (D = 0.9