Editing Polyelectrolyte (section)

== Conformation ==

The conformation of any polymer is affected by a number of factors, notably the polymer architecture and the solvent affinity. In the case of polyelectrolytes, charge also has an effect. Whereas an uncharged linear polymer chain is usually found in a random conformation in solution (closely approximating a self-avoiding three-dimensional [[random walk]]), the charges on a linear polyelectrolyte chain will repel each other via [[double layer forces]], which causes the chain to adopt a more expanded, rigid-rod-like conformation. The charges will be screened if the solution contains a great deal of added salt. Consequently, the polyelectrolyte chain will collapse to a more conventional conformation (essentially identical to a neutral chain in good [[solvent]]).

Polymer [[Chemical structure|conformation]] affects many bulk properties (such as [[viscosity]], [[turbidity]], etc.). Although the statistical conformation of polyelectrolytes can be captured using variants of conventional polymer theory, it is, in general, quite computationally intensive to properly model polyelectrolyte chains, owing to the long-range nature of the electrostatic interaction.
Techniques such as [[static light scattering]] can be used to study polyelectrolyte conformation and conformational changes.