Bright-field images

In the simplest case of bright-field imaging, the CTF can easily be deduced the elastically scattered electron... [Pg.1637]

Figure 4 (a) Bright-field image from a small region of a Ni3AI sample containing ori-... [Pg.108]

Fig. 4.26. Typical X-ray spectra (a) STEM bright-field image of a polycrystalline Zr02/TiC ceramic with a triple junction (b) corresponding EDX spectrum.

Fig. 4.29. EDXS line-profile analysis across the interfacial region of a C-fiber reinforced SiC composite and corresponding TEM bright-field image.

Figure 2. Electron micrographs of synthetic aurlchalclte, (Cuo.3Zno.7)5(C03)2(OH)6. (a) Bright field Image, (b) Selected...

Figure 4. Electron micrographs of mineral aurichalcite calcined at 400 C for 4 hours, (a) Bright field image, (b) Selected area diffraction pattern showing ZnO orientations with zone axes of [1010], [3031] and [5051]. See text for other ZnO orientations.

$Figure 4. Electron micrographs of mineral aurichalcite calcined at 400 C for 4 hours, (a) Bright field image, (b) Selected area diffraction pattern showing ZnO orientations with zone axes of [1010], [3031] and [5051]. See text for other ZnO orientations.$

Figure 6a and b. Electron micrographs of mineral aurichalcite calcined at 350°C for 4 hours and reduced in a 1% H2/N2 gas mixture, (a) and (b) bright field images. [Pg.358]

Samples A and B are of particular Interest because they are composed of small, uniform platinum crystallites. The fact that these crystallites are on alumina limits the techniques available for their characterization. Sample A showed what appeared to be very thin platinum crystallites, which were barely observable by Imaging techniques or measurable by EDS. An exanq>le of a bright field Image and corresponding EDS analysis Is shown In Figure 1. In order to obtain analyses of this type, focus variation at magnifications of 1 to 4 Mx was commonly used with EDS analysis at 20 Mx to confirm that the particle was platinum. [Pg.376]

Fig. 10 Confocal laser scanning microscope images of islets with urokinase (UK) immobilized on the membrane. The green fluorescence indicates positive immunostaining for UK. (a) Islets were modified with oligo(dT)2o-PEG-lipid (C16) or (b) oligo(dT)2o-PEG-lipid (C18) then, oligo (dA)2o-UK was added to the media, (c) Unmodified islets with (left) and without (right) oligo (dT)20-PEG-lipids added to the solution. Insets. Bright field images. Scale bars 100 pm...

Fig. 29. Icosahedral phase in electrodeposited Mn-Al alloys (a) bright field image (b) electron diffraction pattern showing 5-fold symmetry. Reproduced from Grushko et al. [126] by permission of Elsevier.

$Fig. 29. Icosahedral phase in electrodeposited Mn-Al alloys (a) bright field image (b) electron diffraction pattern showing 5-fold symmetry. Reproduced from Grushko et al. [126] by permission of Elsevier.$

Bright field image after gold decoration... [Pg.23]

Fig. 18. n-A isotherm for the anionic amphiphiie(2Ci4SNa) monolayer on the pure water surface, and the bright field images and ED patterns of the monolayers. [Pg.29]

Fio. 23. Area-creep behaviors and bright field images of stearic acid crystalline monolayer prepared by multi-step creep method and continuous compression method. [Pg.34]

Figure 33 shows the jt-A isotherm for the monolayer at Tsp of 303 K above Tm of the monolayer, together with the bright field images and the ED patterns of the monolayer being... [Pg.42]

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