2c). The characteristic peak was assigned to the (211) reflection planes and was consistent with the reported HA phase (JCPDS Card No. 01–74-0566). Moreover, for the diffraction curve of PHA/PBT, the splitting peaks at approximately 45.4° belonged to the (002) planes for the ...
Herein, a novel architecture of binary CuO and TiO2in nanocomposites form was fabricated using bionanofactoryCandida sp., for the first time. For accentuating the structural properties of CuTi nanocomposites (CuTiNCs), various characterization techniques were employed. UV-Vis spectroscopy detected SPR a...
The crystalline nature of the biosynthesized SeNPs was verified by the joint committee on powder diffraction standards (JCPDS) file number 06–0362. Fig. 3 XRD diffractogram of SeNPs extracellularly synthesized by Streptomyces parvulus MAR4 Full size image FTIR analysis The function groups were ...
[58] mentioned that the XRD pattern recorded for the copper nanoparticles showed peaks which were indexed using JCPDS files (JCPDS card no.: 89-2838). The XRD peak positions were consistent with metallic copper. The sharp peaks of the XRD pattern indicate the crystalline nature. The peaks at...
X-ray diffraction (XRD) patterns of the UHMMs show that the diffraction peaks were assigned to the (111), (220), (311), (222), (400), (422), (511), (440), and (533) planes of the Fe3O4criterion card (JCPDS19-0629) (Fig.1h). Therefore, UHMMs are highly pure Fe3O4with...
2d). Detailed analyses of the XRD pattern of the sputtered W layer show that broadened peaks of β-W (JCPDS Cards 47-1319) are observed for the metallic W layer, while the XRD pattern of the tungsten oxide layer does not show any characteristic peaks except an amorphous shoulder, ...
Visser and de Wolff (1964) proposed that the Joint Committee on Powder Diffraction Standards (JCPDS) should apply α-Al2O3 as the standard for comparing the diffraction intensities of powder materials, which was permitted by JCPDS. Since then, the RIR method has been widely applied for the qu...
The other weak peaks at 15.6°, 29.8° and 31.3° could be indexed to the (111), (311) and (222) planes of Co9S8 (JCPDS No. 65-6801), demonstrating that the Bi-Bi2O3 core and Co-CoO/NC shell are converted to the Bi2S3 and Co9S8/NC, respectively [26], [43]. The ...
Powder X-ray diffraction (Fig. S1, Supplementary Information) reveals that all diffraction peaks can be well indexed to the pure phase of BiCuSeO (JCPDS no. 45–0296), without impurity peaks appearing in all as-prepared samples. The lattice constants a and c increase with increasing La doping...
1. It can be observed that all the diffraction peaks of the samples correspond well to those of the standard patterns of Y3Al5O12 (JCPDS 00-033-0040) and Lu3Al5O12 (JCPDS 01-073-1368), which indicates that all the samples are in a pure garnet phase state. In addition, it can ...