Abstract
Homogeneous diethyl phthalate/phenylphthalein-dimethylether (DEP/PDE) mixtures have been investigated by means of broadband dielectric spectroscopy. Contrarily to the widespread view that homogenous binary mixtures should give rise to a single glass transition, the mixture displays two dynamics giving rise to two glass transitions. Such a finding can be rationalized invoking the self-concentration concept that relies on the localized nature of the glass transition phenomenon. In such a way, the analogy with miscible polymer blends, for which this concept has been introduced, is highlighted. A model based on the combination of the Adam-Gibbs (AG) theory of the glass transition and the self-concentration concept resulted to be fully predictive once the only unknown variable, namely, the glass-former specific parameter (alpha) connecting the characteristic length for the glass transition to the configurational entropy, is extracted applying the model itself to DEP/toluene and DEP/PDE solutions highly concentrated, respectively, in DEP and PDE. The alpha parameter obtained in such a way allows the precise determination of the most probable relaxation time even for those DEP/PDE mixtures displaying a strong overlap of the dielectric response. The model incorporating the self-concentration concept to the AG theory also provides the characteristic length scale for the glass transition for both DEP and PDE. Such a length scale was found to be on the order of 1-2 nm. This is comparable to that obtained for other glass formers.
Highlights
Mixtures of liquids with negligible interactions are known to display properties intermediate between those of the pure liquids
We present relaxation data measured by means of broadband dielectric spectroscopyBDSfor diethyl phthalate/phenylphthalein-dimethyletherDEP/PDEmixtures, a system mainly interacting via van der Waals forces and displaying strong dynamic contrast, the Tg of the components being very differentTgDEP = 183 K and TgPDE = 290 K
In the preceding section of the paper, we have shown that homogenous DEP/PDE mixtures, mainly interacting via weak van der Waals forces, display dynamical heterogeneity manifesting with the presence of two main dynamical processesthose associated with the ␣ process
Summary
Mixtures of liquids with negligible interactions are known to display properties intermediate between those of the pure liquids This is true for thermodynamic properties, such as volume or enthalpy, and can be promptly tested performing standard density or calorimetric measurements. Apart from these properties, a common belief is that mixtures of glass-forming liquids display a single glass transition temperatureTgintermediate between those of the pure glass formers. Such a belief has already been disproved forquasiathermal miscible polymer blends1–10͔. This generates a relaxation that is closer to that of the pure component than would be expected from a pure mixing rule of the dynamics of the pure components of the blends
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