Ionic Interactions Induced Anomalous Segmental Dynamics in Polymer/Salt Complexes

IF 5.2 1区化学 Q1 POLYMER SCIENCE

Macromolecules Pub Date : 2024-12-03 DOI:10.1021/acs.macromol.4c00886

Gaopeng Shi, Jianjun Zhang, Xu Wang, Ye Liu, Zhen Chen, Yuanbiao Liu

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Abstract

Dynamic fragility (m) is reported to be inversely proportional to the stretching parameter (β) in many cases. Herein, their relation is further investigated in polyacrylate/salt complexes with ionic interactions. The introduction of metallic ions leads to a decreased enthalpy hysteresis and increased storage modulus at the glassy state, revealing that the ionic interactions act as physical cross-linkers. Further results found a reduced β value and a larger difference in relaxation time between segmental and secondary relaxation. Surprisingly, an anomalous decrease of fragility accompanied by the increase of the glass transition temperature is observed in all complexes. Moreover, the m value further decreases for the α′-relaxation corresponding to the restricted motions in the vicinity of ionic clusters in complex with flexible chains. We suppose that the polarities of metallic ions make extra contributions to the enthalpy change of segmental motions, thereby playing a decisive role in the activation free energy of segmental cooperative rearrangement. Most importantly, the glass transition width can be broadened significantly given that m and β decrease simultaneously, thus providing a new strategy to fabricate high-performance damping materials.

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离子相互作用诱导聚合物/盐配合物的异常节段动力学

据报道，在许多情况下，动态脆性(m)与拉伸参数（β）成反比。本文在具有离子相互作用的聚丙烯酸酯/盐配合物中进一步研究了它们的关系。金属离子的引入导致玻璃态的焓滞回减小和存储模量增加，表明离子相互作用作为物理交联剂。进一步的结果发现，β值降低，节段弛豫和次级弛豫的弛豫时间差异更大。令人惊讶的是，在所有配合物中都观察到脆性随玻璃化转变温度的升高而异常降低。此外，在具有柔性链的络合物中，由于离子团簇附近的运动受限，α′-弛豫的m值进一步降低。我们认为金属离子的极性对节段运动的焓变有额外的贡献，从而对节段协同重排的激活自由能起决定性的作用。最重要的是，在m和β同时减小的情况下，玻璃化转变宽度可以显着扩大，从而为制造高性能阻尼材料提供了新的策略。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Macromolecules 工程技术-高分子科学

CiteScore

9.30

自引率

16.40%

发文量

942

审稿时长

2 months

期刊介绍： Macromolecules publishes original, fundamental, and impactful research on all aspects of polymer science. Topics of interest include synthesis (e.g., controlled polymerizations, polymerization catalysis, post polymerization modification, new monomer structures and polymer architectures, and polymerization mechanisms/kinetics analysis); phase behavior, thermodynamics, dynamic, and ordering/disordering phenomena (e.g., self-assembly, gelation, crystallization, solution/melt/solid-state characteristics); structure and properties (e.g., mechanical and rheological properties, surface/interfacial characteristics, electronic and transport properties); new state of the art characterization (e.g., spectroscopy, scattering, microscopy, rheology), simulation (e.g., Monte Carlo, molecular dynamics, multi-scale/coarse-grained modeling), and theoretical methods. Renewable/sustainable polymers, polymer networks, responsive polymers, electro-, magneto- and opto-active macromolecules, inorganic polymers, charge-transporting polymers (ion-containing, semiconducting, and conducting), nanostructured polymers, and polymer composites are also of interest. Typical papers published in Macromolecules showcase important and innovative concepts, experimental methods/observations, and theoretical/computational approaches that demonstrate a fundamental advance in the understanding of polymers.

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