EDX mapping

Figure 3. SEM image of an EG-AC-Ti02 composite (left) and corresponding EDX mapping of titanium (right).

Fig. 5.11 (a) Pre-Columbian mask made of ternary alloy (ca. 43% Au, 35% Ag, 21% Cu), courtesy Museu de Arqueologia e Etnografia, USP, Brazil (b) Cross section SEM image and corresponding EDX mapping. The dashed line is the object s contour. Note the strong Cu depletion at distances up to 10-15 im from the surface... 

The samples of the as-prepared silicon-doped titanium dioxide were examined by the energy-dispersive X-ray (EDX mapping) which was mounted on both the SEM and TEM. The results show that the silicon dopant is homogeneously distributed in the Ti02 matrix, either in the anatase or the rutile modifications. 

EDX mapping of the cross section of a cordierite (Mg2AUSi50i8) monolith coated... 

Fig. 8 Agglomeration of Pt particles on a Pt02/Nafion layer after electrochemical treatment [66], a EDX mapping of a freshly prepared PtOi/Nafion layer, b Pt-EDX mapping of a Pt02/Nafion layer after electrochemical cycling...

Fig. 8.7 (a) SEM micrograph of the cross-sectional surface of an epoxy/PVP/epoxy sandwich sample, (b) EDX map of the local N concentration, indicating the borders between PVP (bright) and the epoxy layers. The borders are marked with white dashed lines, (c) EDX map of the local S concentration of the same region as in the SEM... 

Characteristics of Stacked Precursor Films The new Cu/Sn/Cu/Zn precursors have good lateral uniformity, and the layers consist of small compact grains. The EDX maps in Figure 1.23 show the macroscopic uniformity of the precursor stacks over a 1.4cm area, in terms of the compositional ratios Cu/(Zn + Sn) and Zn/Sn. Both show only small variations, significantly better than those achieved previously [122). In the example shown, the Cu/(Zn + Sn) ratio was 0.80 0.02 and the Zn/... 

Characterization of Annealed CZTS Films Sulfurization of the Cu/Sn/Cu/Zn precursor stacks gave better microscopic uniformity than the previous Cu/Sn/Zn stacks. An SEM image and EDX maps of the Sn and Zn distributions in a film produced from the Cu/Sn/Cu/Zn precursor stack is shown in Figure 1.26. A comparison with Figure 1.23 shows a much more uniform distribution of the elements for the film formed from the four-layer stack precursor. The high degree... 

Figure 1.23 Large-area EDX maps of a Cu/Sn/Cu/Zn precursor stack in terms of the ratios (a) Cu/(Zn -I- Sn) and (b) Zn/Sn. Reproduced from reference [11].

Figure 16. EDX map for Y and SEM picture of SSN oxidized at 1400 C for 990 min [155], showing a leaching zone beneath the scale.

PIPAAm gradually change from the surfaces to the inside of the film for both films cast on NTPSD and PTPSD. For the film cast on PTPSD in vacuum condition, more significant compositional difference was observed between the dish side and the air side than the film cast on NTPSD in vacuum. In combination with XPS and EDX mapping measurements on the films cast on NTPSD and PTPSD at ambient and vacuum conditions, respectively, it was revealed that both the oxidized hydrophilic surface and evaporation rate of water molecules contribute to the formation of an ideal gradient structure in the HA/PIPAAm blend system (Hexig et al, 2010). 

Figure 16.11 SEM-EDX topical analysis of a spherical SILP WGS catalyst cut into half and polished- (a) SEM image of the catalyst sphere cut into half and (b) EDX map of the catalyst sphere showing ruthenium (purple representing precursor) and sulfur (blue representing ionic liquid) distribution, metal support liquid [BMMIM][OTf], a = 0.1 nil mlp. g, support material agglomer-...

Fig.5, EDXS maps of NiO/YSZ/steel composite samples after heating at different temperature in Ar.

A quantitative analysis of the electrodeposits is listed in Table 6.5. We confirmed that the greater part of the electrodeposited Dy was composed of the metallic state, because very little oxygen was detected on the surface of the electrodeposited Dy metal using EDX mapping. The amounts of carbon and oxygen detected in EDX came from the Cu substrate. The particle size distribution indicated that metallic Dy particles with ca. 0.8-0.9 pm diameter showed a high distribution ratio. In summary, this electrodeposition experiment allowed us to demonstrate that electrodeposited Dy contains a large amount of the metallic state and a smaller amount of the oxide state on the top surface. An in-depth analysis of the... 

Figure 12.12 (a) SEM image of the Ai circuit printed on Si. EDX mapping of Ti for the (b) dip-coated and (c) eiectrodeposited Ti02 Aims. (Adapted with permission from Ref. [38].)... 

Figure 23.10 (a) Time evoiution of aiioy metai nanoparticie formation, (b) SEM image of monoiith after reduction, (c) HAADF-STEM image of AuPd nanoparticie-embedded monoiith. (d-f) EDX mapping of the same. 

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