posted on 2013-09-17, 00:00authored byÁgnes Ábraham, Richard A. Campbell, Imre Varga
Although
the surface tension of complex mixtures determines the
fate of many important natural processes, the property is notoriously
difficult to interpret. Here we announce a new method that successfully
predicts the surface tension of two synthetic and one biological polyelectrolyte/surfactant
mixtures in the phase-separation region after dynamic changes in the
bulk phase behavior have reached completion. The approach is based
on the nonequilibrium framework of a lack of colloidal stability of
bulk complexes in compositions around the charge match point of the
oppositely charged components and requires as input parameters only
the surface tension isotherm of the pure surfactant and some bulk
measurements of the mixtures; no surface measurements of the mixtures
are required. The complexity of the problem is reduced to a single
empirical equation. This simplification in our understanding of the
surface properties of strongly interacting mixtures involving macromolecules
can lead to the optimization of applications involving synthetic polymers
and biomacromolecules such as DNA at surfaces.