半稀溶液中无盐聚电解质的剪切诱导构象。

IF 5.1 Q1 POLYMER SCIENCE

ACS Macro Letters Pub Date : 2025-06-17 DOI:10.1021/acsmacrolett.5c00323

Jan-Michael Y Carrillo,Yangyang Wang

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引用次数: 0

摘要

我们提出了在简单剪切流动下半稀溶液中无盐聚电解质链的粗粒度分子动力学模拟，具有充分的流体动力学相互作用和明确的偶极溶剂。在平衡状态下，链取向统计遵循伪voigt分布，结构相关长度和链端到端矢量自相关函数表现出与聚电解质理论预测一致的缩放行为。在剪切作用下，链从盘绕状态转变为拉伸状态，端到端矢量自相关函数显示出高Weissenberg数下的振荡动力学。通过对旋转张量和剪切应变分布的分析，确定了沿剪切梯度方向排列的三种不同的链种群。与中性聚合物相比，在相同的Weissenberg数下，聚电解质表现出更强的剪切薄化和增强的链排列，这归因于静电相互作用和剪切诱导的反离子释放。这些发现为带电聚合物的独特流动响应提供了分子洞察力，并对定制聚电解质基材料的流变特性具有重要意义。

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Shear-Induced Conformations of Salt-Free Polyelectrolytes in Semidilute Solutions.

We present coarse-grained molecular dynamics simulations of salt-free polyelectrolyte chains in semidilute solutions under simple shear flow, with full hydrodynamic interactions and explicit dipolar solvent. At equilibrium, chain orientation statistics follow a pseudo-Voigt distribution, and the structural correlation length and chain end-to-end vector autocorrelation function exhibit scaling behavior consistent with theoretical predictions for polyelectrolytes. Under shear, chains transition from coiled to stretched states and the end-to-end vector autocorrelation function reveals oscillatory dynamics at high Weissenberg numbers. Analysis of the gyration tensor and shear strain distributions identified three distinct chain populations with directional alignment along and against the shear gradient. Compared with their neutral polymer counterparts, polyelectrolytes exhibit stronger shear thinning and enhanced chain alignment under the same Weissenberg number, which is attributed to electrostatic interactions and shear-induced counterion release. These findings provide molecular insight into the distinct flow response of charged polymers and have implications for tailoring the rheological properties of polyelectrolyte-based materials.

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来源期刊

ACS Macro Letters 化学-

CiteScore

10.40

自引率

3.40%

发文量

209

审稿时长

1 months

期刊介绍： ACS Macro Letters publishes research in all areas of contemporary soft matter science in which macromolecules play a key role, including nanotechnology, self-assembly, supramolecular chemistry, biomaterials, energy generation and storage, and renewable/sustainable materials. Submissions to ACS Macro Letters should justify clearly the rapid disclosure of the key elements of the study. The scope of the journal includes high-impact research of broad interest in all areas of polymer science and engineering, including cross-disciplinary research that interfaces with polymer science. With the launch of ACS Macro Letters, all Communications that were formerly published in Macromolecules and Biomacromolecules will be published as Letters in ACS Macro Letters.