Evaluation of the Donnan model for polyelectrolytes using the composite Poisson-Boltzmann equations

A sequence of charged parallel flat plates immersed in a salt solution is used to model the swelling behavior of a polyelectrolyte. The solution of the nonlinear Poisson-Boltzmann equation gives rise to an analytical expression of the plate distance as a function of swelling pressure (p), plate char

Upper and lower bounds are given for the bchaviour of the Poisson-Boltrmann potential of a highly charged, cylindrical polyelectrolyte in exess salt solution as the salt concentration or cylinder radius tends to zero. The exact singular behaviour of the potential very close to the cylinder is given

Solution of the Poisson-Boltzmann cquatlon for a polyelcctrolytc 1s made conslderably easier, UI a self-consistent calculatlon based upon a ccl1 model Site bmdmg and atmosphcnc condensation of tons are both included, and determme to. gethcr the magmtude of the actlvlty coefliclcnt, thus quantity IS

The automatic three-dimensional mesh generation system for molecular geometries developed in our laboratory is used to solve the Poisson᎐Boltzmann equation numerically using a finite element method. For a number of different systems, the results are found to be in good agreement with those obtained