Effective charge, collapse and the critical point of a polyelectrolyte chain

TL;DR

This paper derives an analytical expression for the effective charge of a polyelectrolyte chain, accounting for various conditions and phase transitions, enhancing understanding of its collapse behavior and critical point.

Contribution

It provides a comprehensive analytical model for the effective charge and phase boundaries of polyelectrolyte chains under diverse conditions, including collapse transitions.

Findings

Derived a universal analytical expression for effective charge.

Calculated phase boundaries and critical point for collapse transition.

Showed chain size is a single-valued function of charge.

Abstract

The charge of a polyelectrolyte (PE) controls myriads of phenomena in biology, biotechnology, and materials science, but still remains elusive from an understanding. Considering the adsorption of counterions on an isolated PE chain, an analytical expression for the effective charge - valid for all chain flexibility, for variable salt, in good solvents at all conditions, in poor solvents in the expanded (coil) state away from the critical point, and for gels, brushes and other PE systems in their expanded state - is derived. Phase boundaries and the critical point for the I-st order collapse transition, induced cooperatively by counterion adsorption and chain conformations, are calculated self-consistently. The size of the PE chain is found to be a single-valued function of charge.