Interaction of Auramine O with montmorillonite clays

• Published in: Journal of luminescence Vol. 136; pp. 63 - 67
• Main Authors: Ferreira, Avelardo U.C., Poli, Alessandra L., Gessner, Fergus, Neumann, Miguel G., Schmitt Cavalheiro, Carla C.
• Format: Journal Article
• Language: English
• Published: Amsterdam Elsevier B.V 01.04.2013; Elsevier
• Subjects: Atomic and molecular physics; Auramine O; Clay; Clays; Condensed matter: electronic structure, electrical, magnetic, and optical properties; Dyes; Exact sciences and technology; Fluorescence; Fluorescence and phosphorescence spectra; Fluorescence and phosphorescence; radiationless transitions, quenching (intersystem crossing, internal conversion); Interlayers; Internal conversion; Molecular properties and interactions with photons; Montmorillonite; Optical properties and condensed-matter spectroscopy and other interactions of matter with particles and radiation; Photoluminescence; Physics; Solid organic materials; Spectroscopy; Surface chemistry; Fluorescence; Clay; Auramine O; Clays; Time resolved spectroscopy; Iminium compounds; Emission spectra; Tertiary amine; Benzenic compound; Absorption spectra; Organic compounds
• ISSN: 0022-2313; 1872-7883
• DOI: 10.1016/j.jlumin.2012.11.022

The spectroscopic behaviour of Auramine O (AuO) in aqueous suspensions of montmorillonite clays was studied using absorption and static and dynamic fluorescence techniques. The fluorescence of Auramine O increases immediately after mixing the dye solution with the suspension of clay due to its adsorption on the external surface of the clays, which restricts the torsional molecular motion of Auramine. At longer times, the dye molecules migrate into the interlamellar region of the clay particles. Aggregation of the dye molecules can occur in the interlayer region, leading to the decrease of the fluorescence emission. The fluorescence quantum yields (ΦF) of AuO on the natural montmorillonites SAz-1, SWy-1, Syn-1 and Laponite clays were 0.015, 0.007, 0.016 and 0.017, respectively. These values are higher than the ΦF of AuO in aqueous solution and are of the same order of magnitude of the ΦF found for viscous solvents such as n-hexanol and n-heptanol (0.014 and 0.015). Time-resolved fluorescence spectroscopy studies of adsorbed Auramine on clays revealed multi-exponential decays with components in the 25–36, 219–362 and 1300–1858ps ranges. The short-lived components can be attributed to species bound to external surface and the longer lifetime is assigned to dye molecules in interlayer spaces interacting strongly with the clay. It seems clear that the binding of Auramine to clays causes a significant reduction of the rate of internal conversion that does involve rotational diffusion, so that the clay will be locked in a conformational geometry unfavourable for internal conversion. ► Auramine O was dissolved in dispersions of different clays. ► The fluorescence quantum yields were higher than in aqueous solution. ► Decrease of the emission and triexponential decays were observed on SAz-1, LapRDS and SYn-1. ► On Swy-1 the decrease was slower and the decay monoexponential. ► The dye produces aggregates on the internal lamellar region of the clay.