Self-assembly of gradient copolymers in a selective solvent. New structures and comparison with diblock and statistical copolymers

共聚物 材料科学 高分子化学 高分子科学 溶剂 化学工程 化学 聚合物 有机化学 复合材料 工程类
作者
Vitaly S. Kravchenko,Volker Abetz,Igor I. Potemkin
出处
期刊:Polymer [Elsevier BV]
卷期号:235: 124288-124288 被引量:8
标识
DOI:10.1016/j.polymer.2021.124288
摘要

We perform comparative studies of self-assembly of equivalent statistical , diblock and gradient AB copolymers in a selective solvent using dissipative particle dynamics simulations. Both effects of the fraction of soluble and insoluble groups, selectivity of the solvent and degree of immiscibility of A and B groups on self-assembled structures are studied. With a simplified model of the statistical copolymer we predict macroscopic phase segregation, when non-aggregated chains coexist with precipitate. The later can be dense or swollen (physical gel) depending on degree of immiscibility of the A and B groups. For the case of diblock copolymer solutions, we predict thermodynamic stability of few structures: spherical and worm-like micelles, rings, vesicles and precipitate. We develop a simple theory, which allows calculating free energies of worms and rings (closed worms) and explaining transition between the structures. A number of diagrams of states is constructed. In case of gradient copolymers, two scenarios of self-assembly are predicted. The spherical micelles of gradient copolymer can aggregate with each other forming worms, rings and vesicles through aggregation of coronae (so-called sticky corona), which contain insoluble groups, if the fraction of insoluble groups per chain is not high. Herewith, the core of the assembled structures remains multidomain despite a high interfacial tension. The second (“diblock-like”) scenario is realized when the fraction of insoluble groups is high enough. In this case the core of worms, rings and vesicles is practically a monodomain, however, solvophilic groups can be intercalated into the core due to the primary structure of the copolymer. A new structure of a multi-compartment vesicle on the basis of gradient copolymers is predicted. • Gradient copolymers can self-assemble into different morphologies in a selective solvent. • The spherical micelles can aggregate with each other via sticking coronae forming worms, rings and vesicles. • The core of the assembled structures remains multidomain despite a high interfacial tension. • A new structure of a multi-compartment vesicle on the basis of gradient copolymers is predicted.
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