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Electron transfer band process

The basic principles describing the efFects of CT complexes on the energy profile along the reaction coordinate stem from the theory of electron transfer. Redox processes may occur (i) as ground-state thermal reactions, (ii) by direct irradiation of the CT band, and (iii) upon photoexcitation of one of the redox partners followed by diffusional complex formation [4, 24], as depicted in Chart 3. [Pg.460]

According to the electron-transfer mechanism of spectral sensitization (92,93), the transfer of an electron from the excited sensitizer molecule to the silver haHde and the injection of photoelectrons into the conduction band ate the primary processes. Thus, the lowest vacant level of the sensitizer dye is situated higher than the bottom of the conduction band. The regeneration of the sensitizer is possible by reactions of the positive hole to form radical dications (94). If the highest filled level of the dye is situated below the top of the valence band, desensitization occurs because of hole production. [Pg.496]

Complexed arenediazonium salts are stabilized against photochemical degradation (Bartsch et al., 1977). This effect was studied in the former German Democratic Republic in the context of research and development work on diazo copying processes (Israel, 1982 Becker et al., 1984) as well as in China (Liu et al., 1989). The comparison of diazonium ion complexation by 18-crown-6 and dibenzo-18-crown-6 is most interesting. Becker at al. (1984) found mainly the products of heterolytic dediazoniation when 18-crown-6 was present in photolyses with a medium pressure mercury lamp, but products of homolysis appeared in the presence of dibenzo-18-crown-6. The dibenzo host complex exhibited a charge-transfer absorption on the bathochromic slope of the diazonio band. Results on the photo-CIDNP effect in the 15N NMR spectra of isotopically labeled diazonium salts complexed by dibenzo-18-crown-6 indicate that the primary step is a single electron transfer. [Pg.302]

UV-vis spectra obtained for W0x-Zr02 samples, (NH4)6H2Wi204o, and bulk WO3 standards are shown in Figure 6. The absorption spectrum for (NH4)6H2Wi204o exhibits two bands with maxima at 4.9 and 4.0 eV. The band at 4.9 eV has been assigned to electron transfer from 0 to W in 0=W species, based on previous studies for MoOx samples [20]. The band at 4.0 eV probably reflects similar processes in W-O-W species. Individual bands are not apparent in bulk WO3 because of its polymeric nature and wide range of W-O-W distances. [Pg.539]

See other pages where Electron transfer band process is mentioned: [Pg.24]    [Pg.17]    [Pg.1078]    [Pg.33]    [Pg.38]    [Pg.77]    [Pg.43]    [Pg.28]    [Pg.1078]    [Pg.4225]    [Pg.33]    [Pg.126]    [Pg.905]    [Pg.198]    [Pg.180]    [Pg.34]    [Pg.263]    [Pg.100]    [Pg.799]    [Pg.1946]    [Pg.270]    [Pg.389]    [Pg.400]    [Pg.449]    [Pg.236]    [Pg.585]    [Pg.409]    [Pg.87]    [Pg.178]    [Pg.226]    [Pg.227]    [Pg.266]    [Pg.280]    [Pg.92]    [Pg.106]    [Pg.123]    [Pg.59]    [Pg.19]    [Pg.231]    [Pg.746]    [Pg.747]    [Pg.120]    [Pg.150]    [Pg.112]    [Pg.113]    [Pg.303]    [Pg.400]   
See also in sourсe #XX -- [ Pg.189 ]



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Electron processes

Electron transfer band

Electron-transfer processes

Electronic processes

Transfer band

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