Light stability of pyrazolotriazole azamethine dyes at oil/aqueous interfaces. Journal Article uri icon



  • Film and dispersion coatings of two pyrazolotriazole azamethine (PT) dyes are used to study the effect of increasing the surface-area-to-volume (SA : V) ratio of the oil/aqueous (solvent/gelatin) interface on nonoxidative and oxidative fade characteristics. High concentration solutions of the dyes in a poly(vinyl acetate)dicyclohexylphthalate mixture as solvent are coated on glass substrates with a gelatin overcoat to produce thin film coatings and are also dispersed in gelatin to create "oil-in-gelatin" dispersion coatings. It is calculated that the dispersion coatings possess a SA : V ratio of approximately 20x greater than the film coatings. In nonoxidative fade conditions both the film and dispersion samples possess similar quantum yields of fade, implying that the presence of a solvent/gelatin interface does not significantly affect any electron transfer fade mechanisms. However, in oxidative fade conditions increasing the SA : V ratio of the interface by 20x leads to an increase in the quantum yield of fade of only a factor of 1.5-2. This disproportionate increase in the fade kinetics in dispersion coatings is explained by a kinetic scheme modelling oxygen diffusion through the coatings. It shows that the rate determining step for dye fade starts to become the diffusion of oxygen through the air/gelatin interface, and explains why changes in the SA : V ratio are not fully transferred to the quantum yield of fade.

publication date

  • April 1, 2005

Full Author List

  • Parmar CK; Rumbles G; Winscom CJ

Other Profiles

Additional Document Info

start page

  • 1815

end page

  • 1823


  • 7


  • 8