Effect of electric field gradients on lipid monolayer membranes.

Externally applied nonuniform electric fields can strongly affect thermodynamic phases in a lipid monolayer when applied under conditions of temperature, pressure, and composition that are near phase boundaries. Under such conditions nonuniform applied fields can produce or suppress phase separations. Field-induced phase-separated domains have sizes that are in good agreement with calculations. Field gradients can also produce large concentration gradients in binary mixtures just above their critical points. The present work elaborates our earlier studies of these field effects using thermodynamic models of the phase behavior of two-component liquid mixtures. The calculations are of interest in connection with biological membranes that, at the growth temperature, are in a liquid state close to a phase boundary.