Transmission electronic spectroscopy

Transmission electron microscopy (TEM) The dispersion of cobalt oxide species on the titania supports were determined using a JEOL-TEM 200CX transmission electron spectroscopy operated at 100 kV with 100k magnification. 

Cryo-transmission electron spectroscopy (TEM), scanning electron spectroscopy, and confocal laser scanning microscopy smdies indicated the presence of large. 

Transmission electron spectroscopy (TEM) studies of the co-deposited thin films revealed a continuos polymer phase with a largely inter-dispersed SiOj regions on a 5-50 nm scale, confirming the nanocomposite morphology. As mentioned in section 3.1.3, parylene thin films obtained are typically highly crystalline. In contrast, SiO is an amorphous material. From X-ray diffraction analyses, it was observed that by increasing the relative amount of polymer in the nanocomposite, the crystallinity was... 

High Resolution Transmission Electron Spectroscopy High Temperature Shift (in WGS)... 

HRTEM High Resolution Transmission Electron Spectroscopy... 

Transmission electron spectroscopy analyses of the membranes showed excellent nanophase-separated morphology containing well-dispersed hydrophilic domains in a hydrophobic matrix (Fig. 3.19). Such... 

Figure 3.19 Transmission electron spectroscopy micrographs of co-SPI membranes (cross-section, in Ag+ form). Reproduced with permission from Ref. [253].

HRTEM High-resolution transmission electron spectroscopy... 

Transmission electronic spectroscopy, the most facile and readily available spectroscopic technique for investigating electrochemical reactions, became possible due to the availability of OTEs. The underlying principle is that the working electrode, usually solid, is optically transparent. This means that it transmits more than 50% of incident light within the wavelength region of interest. 

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