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The XRD analysis of the prepared sample of TiO 2 nanoparticles was done using a Bruker make diffractometer, Cu-Kα X-rays of wavelength (λ)=1.5406 Å and data was taken for the 2 θ range of 10° to 70° with a step of 0.1972°.
Download scientific diagram | XRD pattern of TiO2 nanoparticles. from publication: Study of the Effect of Titanium Dioxide Hydrosol on the Photocatalytic and Mechanical Properties of Paper...
Download scientific diagram | (a) XRD patterns of Pt nanoparticles, TiO2 nanoparticles, TiO2−NC, Pt/TiO2−C, and Pt/TiO2−NC. (b) FESEM images of NC. (c) TEM and (d) HRTEM images of Pt/TiO2− ...
23 Ιουλ 2019 · X-ray diffraction (XRD) patterns for samples of nanoparticles having different sizes and shapes can look different, and careful analysis of the XRD data can provide useful information and also help correlate microscopic observations with the bulk sample.
N2 adsorption–desorption isotherms revealed a mesoporous structure for all samples (AC, TiO2@AC-2, and TiO2@AC-10) with hysteresis loops, indicating pores ranging from 2 nm to 50 nm in...
23 Ιουλ 2019 · owder X-ray diffraction (XRD) is a common character-ization technique for nanoscale materials. Analysis of a sample by powder XRD provides important information that is complementary to various microscopic and spectro-scopic methods, such as phase identification, sample purity, crystallite size, and, in some cases, morphology. As a bulk
Slide 1. Two-Dimensional X-ray Diffraction. Bob He, Bruker AXS April 16, 2019 Harvard University. XRD2: Outlines. Geometry and fundamentals. Instrumentation: configuration, X-ray source and 2D detector. Application examples: Phase identification. Stress measurement. Texture, orientation and fiber analysis. Crystallite size measurement. Thin films.
