| Abstract
| - Using (semi-)grand canonical Monte Carlo simulations of a polyelectrolyte chain of length N where the chargesare in contact with a reservoir of constant chemical potential μ given by the solution pH, we study the behaviorof annealed polyelectrolytes in a poor solvent. We focus on the conformational properties in the close-to-ϑ-point regime τ < τ* ∼ N-1/5u-3/5, which can be reached either by reducing electrostatic interaction strengthu = λB/b or by improving solvent quality, i.e., by reducing τ = (ϑ − T)/ϑ. We investigate the conformationswith regard to parameters u, τ, and μ and explore in which conditions pearl-necklace-like structures are stable.Most of the pearl-necklace parameters are found to obey the scaling relations predicted for quenchedpolyelectrolytes. However, similarly to the behavior known for this class of polyelectrolytes, we obtain largefluctuations in pearl number and size. In agreement with theoretical predictions we find a nonuniform chargedistribution between pearls and strings. For τ ≪ 1 and moderate interaction strength we demonstrate that acascade of pearl-necklace transitions can be initiated by changing μ, i.e., by tuning the solution pH.
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