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A X-ray diffraction patterns

Figure5.47 (a) X-ray diffraction pattern (Cu Ka) of a commercial UBH4 sample (b) X-ray diffraction patter after the thermal desorption of hydrogen from the sample (a) (c) X-ray diffraction pattern of the sample upon reabsorption of the hydrogen. Figure5.47 (a) X-ray diffraction pattern (Cu Ka) of a commercial UBH4 sample (b) X-ray diffraction patter after the thermal desorption of hydrogen from the sample (a) (c) X-ray diffraction pattern of the sample upon reabsorption of the hydrogen.
Fig. 9.2.7 Characterization of the intermediate phase obtained in the reduction of Ni(OH)2 in ethylene glycol (a) x-ray diffraction pattern, and (b) structural model. (From Ref. 29.)... Fig. 9.2.7 Characterization of the intermediate phase obtained in the reduction of Ni(OH)2 in ethylene glycol (a) x-ray diffraction pattern, and (b) structural model. (From Ref. 29.)...
Fig. 14. (a) X-ray diffraction pattern of a rapid quenched sample with the nominal composition HoPd2B2C with typical fee reflexes, (b) Lattice constant a of the non-identified fee unit cell for different rapidly quenched samples of nominal composition / Pd2B2C (Freudenbeiger 2000). [Pg.225]

Figure 6. (a) X-ray diffraction pattern of the 10, form of poly d(l) poly(C) and (b) a pitch length of this structure viewed normal to (top) and along the helix axis (bottom,). Note the small positive tilt of the bases and the forward positioning of the base-pairs characteristic of the A-famity. [Pg.496]

Figure A X-ray diffraction patterns of POD films pyrolyzed at HTT s below 1000 C. Figure A X-ray diffraction patterns of POD films pyrolyzed at HTT s below 1000 C.
Figure 7.14 Comparing diffraction patterns of x-rays and electrons. A, X-ray diffraction pattern of aiuminum. B, Electron diffraction pattern of aluminum. This behavior implies that both x-rays, which are electromagnetic radiation, and electrons, which are particles, travel in waves. Figure 7.14 Comparing diffraction patterns of x-rays and electrons. A, X-ray diffraction pattern of aiuminum. B, Electron diffraction pattern of aluminum. This behavior implies that both x-rays, which are electromagnetic radiation, and electrons, which are particles, travel in waves.
Figure 1. (A) X-ray diffraction patterns (Cu Ka, X = 1.5405 A) of a) AP-24PDO-X (X 0.5,1,2 an 3) materials calcined in the range 773-1073 K b) AP-24PDO-05-1273 c) AP-24PDO-1-1273 d) AP-24PDO-2-1273 and AP-24PDO-3-1273. (B) Laser-Raman spectra of a) AP-24PDO-1-773 b) AP-24PDO-1-923 c) AP-24PDO-1-1073 d) AP-24PDO-1-1273. Figure 1. (A) X-ray diffraction patterns (Cu Ka, X = 1.5405 A) of a) AP-24PDO-X (X 0.5,1,2 an 3) materials calcined in the range 773-1073 K b) AP-24PDO-05-1273 c) AP-24PDO-1-1273 d) AP-24PDO-2-1273 and AP-24PDO-3-1273. (B) Laser-Raman spectra of a) AP-24PDO-1-773 b) AP-24PDO-1-923 c) AP-24PDO-1-1073 d) AP-24PDO-1-1273.
Figure 1. (a) X-ray diffraction patterns of (1) the opal-VOz composite and (2) the bulk monoclinic VO2 sample, (b) Raman spectra of (1) the opal-VO composite where VO2 is in the semiconductor phase and (2) the single VO2 crystal [7]. [Pg.25]

Figure 17.9 (a) X-ray diffraction patterns of uncompatibilized iPP/SBH 80/20 w/w blend and of the blends compatibilized with 2.5, 5, and 10wt% COPP50 (data from Reference 38). (b) Fitted profile of iPP/SBH 80/20 w/w X-ray pattern. (From Reference 38 with permission from John Wiley Sons, Inc.)... [Pg.514]

Figure 7.14 (a) X-ray diffraction pattern of aiuminum foii. p) Eiectron diffraction of aiuminum foii. The simiiarity of these two patterns shows that eiectrons can behave iike X rays and dispiay wave properties. [Pg.291]

Figure 63 (a) X-ray diffraction patterns of organically modified Closite-30B nanoclay and nanocomposites, (b) small-angle neutron scattering patterns I(q) versus q (wave vector) plot of indicated PU and nanocomposites, (c, c ) AFM image of PU and its nanocomposites with height profile, and (d) POM image PU-nanoclay composite [9]. [Pg.177]

Fig. 2. (a) X-ray diffraction patterns for the series Lm-xAxFeOs-s with x-0.2 to x-0.8, all obtained by the ceramic route. Rietveld fits to the X-ray diffraction data for samples LPS20 (b), LPSC50 (c) and LSC80 (d). [Pg.491]

Figure 6.13 (.a) x-ray diffraction pattern of aluminum foil, (b) Electron diffraction of aluminum foil. The similarity of these two patterns shows that eleetrons can behave like X rays and display wave properties. [Pg.210]

Figure 5.11 (a) X-ray diffraction pattern and (b) N2 adsorption/desorption isotherms at 77 K of cubic Fm3m cage carriers (HOM-CIO) (curve a) and HOM-DZ (curve b) HOM-TMPyP (curve c) HOM-PR (curve d) and HOM-TPPS (curve e) nanosensors. The... [Pg.186]

Fig. 9 (a) X-Ray diffraction patterns of anodically grown Xi02 nanotubular arrays on Ti-substrate at room temperature (RT) and annealed at different temperatures of 350 °C, 500 ° C, 700 °C, and 900 °C. (b) SEM cross-sectional view of near bottom of nanotubes after annealing at 500 C in air showing the growth of rutile phase from nanotube/Ti-substrate interface, (c) complete conversion to rutile phase after annealing nanotubes at temperature higher than 650 C in air (reproduced with permission from Refs. 194, 271). [Pg.110]

Figure 3.30 (a) X-ray diffraction patterns of as-deposited and annealed TiOi... [Pg.143]

Figure 1. (a) X-ray diffraction patterns of VOx-NTs hydrothermally treated at 180°C for 7 days without stirring and using an oven with a rotating axis for autoclaves to ensure a dynamic hydrothermal reaction ( stirring ), (b) XRD patterns of VOx materials upon pH adjustment with sulfuric acid (H2SO4) and hydrothermal treatment (ISO C, 7 d). The numbers indicate the amount of H2SO4 used (in mmole). [Pg.250]


See other pages where A X-ray diffraction patterns is mentioned: [Pg.10]    [Pg.321]    [Pg.50]    [Pg.137]    [Pg.50]    [Pg.285]    [Pg.606]    [Pg.13]    [Pg.107]    [Pg.286]    [Pg.36]    [Pg.81]    [Pg.137]    [Pg.606]    [Pg.256]    [Pg.366]    [Pg.367]    [Pg.142]    [Pg.246]    [Pg.105]    [Pg.291]    [Pg.62]    [Pg.23]    [Pg.7]   
See also in sourсe #XX -- [ Pg.155 ]




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A X-ray diffraction

Diffraction patterns

Ray Diffraction Patterns

X pattern

X-ray pattern

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