Publicação: Dynamical scaling in fractal structures in the aggregation of tetraethoxysilane-derived sonogels
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2010-10-01
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Wiley-Blackwell
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Dynamical scaling properties in fractal structures were investigated from small-angle X-ray scattering (SAXS) data of the kinetics of aggregation in silica-based gelling systems. For lack of a maximum in the SAXS intensity curves, a characteristic correlation distance xi was evaluated by fitting a particle scattering factor model valid for polydisperse coils of linear chains and f-functional branched polycondensates in solution, so the intensity at q = xi-1, I(xi-1, t), was considered to probe dynamical scaling properties. The following properties have been found: (i) the SAXS intensities corresponding to different times t, I(q, t), are given by a time-independent function F(q xi) = I(q, t)xi-D /Q, where the scattering invariant Q has been found to be time-independent; (ii) xi exhibited a power-law behavior with time as xi similar or equal to t alpha, the exponent alpha being close to 1 but diminishing with temperature; (iii) I(xi-1, t) exhibited a time dependence given by I(xi-1, t) similar or equal to t beta, with the exponent beta found to be around 2 but diminishing with temperature, following the same behavior as the exponent alpha. In all cases, beta/alpha was quite close to the fractal dimension D at the end of the studied process. This set of findings is in notable agreement with the dynamical scaling properties.
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Journal of Applied Crystallography. Malden: Wiley-blackwell, v. 43, p. 949-954, 2010.
