Produção Nacional
Revisado por pares
Dye-polymer interactions controlling the kinetics of fluorescein photobleaching reactions in poly(vinyl alcohol)
1998; Elsevier BV; Volume: 114; Issue: 1 Linguagem: Inglês
10.1016/s1010-6030(97)00307-9
ISSN1873-2666
AutoresMárcio Talhavini, Teresa Dib Zambón Atvars,
Tópico(s)Nonlinear Optical Materials Studies
ResumoThis work presents results for the temperature dependence of the photobleaching reactions of Fluorescein dissolved in poly (vinyl alcohol) (PVA) irradiated by a continuous 150 W Hg high pressure arc lamp. We observed that the photobleaching process efficiency is dependent on: lamp power, dye concentration and temperature. Although the photobleaching processes can only be described by a single-exponential function for lower concentration samples, a biphasic model must be employed for intermediate concentrations, resulting in one slower and one faster processes, while, for higher concentration samples, even multiple-exponential functions are unable to tit the experimental data. This complex behavior is probably due to the co-existence of many different types of energy transfer and photochemical processes with different rate constants. Therefore, a model based on a sequential distribution of site occupation by the dye molecules in the matrix, controlled by dyepolymer interaction strengths, is proposed to explain the complex-exponential kinetic behavior. Moreover, photobleaching process efficiency- is somewhat increased by temperature and, above the PVA glass transition temperature, Tg, (350 K), it follows a first order kinetics, fitted by a mono-exponential function.
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