Abstract

Abstract The linear dichroic spectra of the neutral (uncharged) and divalent (doubly charged) Acridine Orange, Acridine Yellow, and Proflavine were measured at 25 °C in the visible and UV wavelength regions by the film dichroism method. These 3,6-disubstituted symmetric acridine dyes were molecularly dispersed in the heattreated poly(vinyl alcohol) film by the staining method. The neutral and divalent dye species were prepared by adding a sufficient amount of sodium hydroxide or sulfuric acid to the staining dye solutions. The wavelength dependence of the reduced dichroism, ΔA/A, of the neutral species at a given stretch ratio was very similar to that of the monovalent species previously reported [Bull. Chem. Soc. Jpn., 52, 3163 (1979)]. Values of ΔA/A for the divalent species were nearly constant over the entire wavelength region 550–220 nm. The long-axis and short-axis polarized component (Az and Ay) spectra were computed for the neutral dye species from the observed parallel- and perpendicular-polarized dichroic spectra by using a reduction procedure. The broad, principal band of each dye species in the visible region was deduced to be a composite of two orthogonal (a strong Az and a weak Ay) electronic transitions.

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