Phase Behavior of Melts of Diblock-Copolymers with One Charged Block
Alexey A. Gavrilov, Alexander V. Chertovich, Igor I. Potemkin

TL;DR
This study explores the phase behavior of melts of diblock copolymers with one charged block using dissipative particle dynamics, revealing subtle differences from neutral copolymers and the impact of charge and counterions on order formation.
Contribution
It demonstrates that charge correlation attraction can induce microphase separation and analyzes how electrostatic interactions influence the order-disorder transition and counterion diffusion.
Findings
Charge correlation attraction causes microphase separation.
Phase diagrams of charged and neutral copolymers are similar when considering an effective ta.
Counterion entropy affects the order-disorder transition, especially at longer chain lengths.
Abstract
In this work we investigated the phase behavior of melts of block-copolymers with one charged block by means of dissipative particle dynamics with explicit electrostatic interactions. We assumed that all the Flory-Huggins \c{hi} parameters were equal to 0 and showed that the charge correlation attraction solely can cause microphase separation with long-range order; a phase diagram was constructed by varying the volume fraction of the uncharged block and the electrostatic interaction parameter {\lambda}. The obtained phase diagram was compared to the phase diagram of corresponding neutral diblock-copolymers. Surprisingly, the differences between these phase diagrams are rather subtle; the same phases are observed, and the positions of the ODT points are similar if the {\lambda}-parameter is considered as an "effective" \c{hi}-parameter. Next, we studied the position of the ODT for…
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