Abstract

Electric linear dichroism (ELD) spectra of two cationic triphenylmethane dyes, crystal violet (CV) and malachite green (MG), bound to sodium montmorillonite K10 (MK-10) were studied at 20°C in aqueous media at two mixing ratios, D/S, of 0.10 and 0.24 in the 700- to 400-nm wavelength region and in the applied electric field strength range between 0 and 3 kV/cm. The specific parallel and perpendicular dichroism (Δ A‖/A and Δ A⊥/A) spectra of dye-adsorbed MK-10 suspension were measured at a fixed field strength with an apparatus equipped with a 512-channel photodiode array detector. By changing the field strength over a wide range, a series of the reduced dichroism values of the bound dyes were measured at a fixed wavelength. By fitting these dichroism values to theoretical orientation functions, the intrinsic reduced dichroism (Δ A/A)int spectra at the limiting high fields (ELD spectrum) were determined for CV and MG bound to MK-10. No appreciable difference was observed at the two D/S values. The ELD spectra of these bound dyes are undulatory but never constant, throughout their absorption region; thus, the dye plane does not lie flatly either on the surface or between layers of MK-10 particle. The isotropic absorption spectra, A, of bound CV and MG were each deconvoluted to eight partial absorption bands, which were grouped into three differently polarized transitions, i.e., one out-of-plane and two mutually perpendicular in-plane. The optical transition dipole moment direction of each group was found to make a considerable angle with respect to the symmetry axis of the disklike MK-10 particle, whose plane (or surface) tends to orient toward the applied electric field at the limiting high fields. By simulating the observed ELD spectra of bound CV and MG with those deconvoluted bands, the roll, tilt, and inclination angles of both dyes were evaluated quantitatively with a new analytical method. The average angles (±θR, ± θT, |θN|) are −(34–47)°, 34°, and 51° for bound CV and −44°, 32°, and 53° for bound MG at two D/S values; thus, the triangular plane of each dye is rolled as well as tilted with a large inclination angle.

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