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Electrons microscope views

Fig. 7. Electron microscope view of Gilson synthetic opal each sphere is j p.m in diameter. Fig. 7. Electron microscope view of Gilson synthetic opal each sphere is j p.m in diameter.
Figure 3. (a) Plan view image of a SOI waveguide microspectrometer with 0.08 nm channel spacing and 20 nm free spectral range, (b) Plan view and a cross-section scanning electron microscope view of the waveguide apertures at the combiner output. [Pg.7]

Figure 6. Scanning electron microscopic view of membrane surfaces that were biologically deteriorated. Colonies of the microorganism on the surface were removed. Figure 6. Scanning electron microscopic view of membrane surfaces that were biologically deteriorated. Colonies of the microorganism on the surface were removed.
Figure 1.1 (a) Real heterogeneity of a catalyst from the centimetric level to the nanoscale (atomic) level (b) a cubo-octahedral model of a metal particle and an electron microscope view of a platinum particle covered with n-octylsilyl fragments). (Unpublished results with permission of the Fritz Haber Institute, Berlin.)... [Pg.2]

Figure 8.11 Scanning electron microscopic view of an ordered powder blend of micronized salbutamol sulfate with lactose carrier. (Courtesy of SkyePharma.)... Figure 8.11 Scanning electron microscopic view of an ordered powder blend of micronized salbutamol sulfate with lactose carrier. (Courtesy of SkyePharma.)...
Figure 16 Scanning Electron Microscope view of a microchannel engraved in silicon (After [26])... Figure 16 Scanning Electron Microscope view of a microchannel engraved in silicon (After [26])...
Figure 45- 5 Graphic example of glomerular changes in nephrotic syndrome. Scanning electron microscopic view of glomerular epithelial podocytes from a vehicle-treated rat (left) and a puromycin aminonudeoside (PAN)-treated ( 80mg/kg body wt) rat (right). Note the extensive loss of podocyte foot processes, which occurs in response to PAN-induced nephrotic syndrome. This illustrates the major cellular changes that can occur in nephrotic syndrome. GEC, glomerular epithelial cell. (From Ricardo SD, Bertrom JF, Ryan GB Antioxidants protect podocyte foot processes in puromycin aminonucleoside-treated rats. J Am Soc Nephrol 1994 4 1974-86.)... Figure 45- 5 Graphic example of glomerular changes in nephrotic syndrome. Scanning electron microscopic view of glomerular epithelial podocytes from a vehicle-treated rat (left) and a puromycin aminonudeoside (PAN)-treated ( 80mg/kg body wt) rat (right). Note the extensive loss of podocyte foot processes, which occurs in response to PAN-induced nephrotic syndrome. This illustrates the major cellular changes that can occur in nephrotic syndrome. GEC, glomerular epithelial cell. (From Ricardo SD, Bertrom JF, Ryan GB Antioxidants protect podocyte foot processes in puromycin aminonucleoside-treated rats. J Am Soc Nephrol 1994 4 1974-86.)...
F re 85. Transmission electron microscope view of a washcoat alumina in the fresh state (left) and after aging in air during 24 h at 1373 K (right). Total magnification 200 000x. [Pg.84]

Fig. 5.3.3 TEM (transmission electron microscope) view of epipolysilicon showing columnar growth of crystals... Fig. 5.3.3 TEM (transmission electron microscope) view of epipolysilicon showing columnar growth of crystals...
Fig. 5 Top scanning electron microscope view of an ordered mesoporous Ti02 (anatase) film produced by a block-copolymer templating method [25]... Fig. 5 Top scanning electron microscope view of an ordered mesoporous Ti02 (anatase) film produced by a block-copolymer templating method [25]...
Fig. 6 Scanning electron microscope view of a film constituted of titania nanotubes. The length of the tubes is about 5 pm... Fig. 6 Scanning electron microscope view of a film constituted of titania nanotubes. The length of the tubes is about 5 pm...
Figure 3t Electron microscopic view of the mutant Rubisco. Figure 3t Electron microscopic view of the mutant Rubisco.
Fig. 5.19 Scanning electronic microscope view of the miniature flow-through ECL sensor shown before completion by a plexiglass top cover plate. Reprinted with permission from Ref. [115]. Copyright 1999 Elsevier... Fig. 5.19 Scanning electronic microscope view of the miniature flow-through ECL sensor shown before completion by a plexiglass top cover plate. Reprinted with permission from Ref. [115]. Copyright 1999 Elsevier...
Figure 6.7. Scanning electron microscope view of P. shermanii cells immobilized in PAAG. (A) Immediateh after immobilization. (B) After 192 h of functioning, x 6,612. From Ikonnikov (1985). Figure 6.7. Scanning electron microscope view of P. shermanii cells immobilized in PAAG. (A) Immediateh after immobilization. (B) After 192 h of functioning, x 6,612. From Ikonnikov (1985).
Structure, Defects and Nonstoichiometry in Oxides An Electron Microscopic View, L. Eyring. In T. Sprensen (Ed.), Nonstoichiometric Oxides, Academic Press, pp. 337-398,1981, Chapter 7. [Pg.548]

Figure 8.3. Transmission of an electron microscope view of a crack font in a sialon [TAN 88]... Figure 8.3. Transmission of an electron microscope view of a crack font in a sialon [TAN 88]...
See other pages where Electrons microscope views is mentioned: [Pg.364]    [Pg.11]    [Pg.185]    [Pg.86]    [Pg.881]   


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Electron microscop

Electron microscope

Electron microscopic

Microscopes electron microscope

Microscopic view

Scanning electron microscope views

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