解开环状聚合物熔体中的玻璃状动态异质性:从半柔性链到刚性链

IF 4.7 Q1 POLYMER SCIENCE
Shota Goto, Kang Kim* and Nobuyuki Matubayasi*, 
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引用次数: 0

摘要

环状聚合物是一类具有独特物理性质的有趣聚合物,了解它们的行为对于开发准确的理论模型非常重要。在本研究中,我们使用分子动力学模拟研究了链刚度和单体密度对环聚合物熔体静态和动态行为的影响。我们的第一个重点是质心位移的非高斯参数,作为动态不均匀性的衡量标准,这在玻璃成型液体中很常见。我们发现,位移分布中的非高斯性随着聚合物链的单体密度和刚度的增加而增加,这表明排除的质心之间的体积相互作用对环聚合物的动力学有更强的影响。然后,我们分析了半柔性和刚性环聚合物的回转半径与单体密度之间的关系。我们的结果表明,两者之间的关系随着链刚度的变化而变化,这可归因于环内和相邻环的排斥力之间的竞争。最后,我们研究了环质心之间的键断裂动力学,以分析键的分子间网络的交换。我们的结果表明,键断裂的动态不均匀性与环聚合物熔体中的非高斯性相耦合,突出了键断裂方法在确定环聚合物熔体分子间动力学中的重要性。总的来说,我们的研究深入了解了环聚合物的基本机制,并揭示了控制其动态行为的因素。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Unraveling the Glass-like Dynamic Heterogeneity in Ring Polymer Melts: From Semiflexible to Stiff Chain

Unraveling the Glass-like Dynamic Heterogeneity in Ring Polymer Melts: From Semiflexible to Stiff Chain

Unraveling the Glass-like Dynamic Heterogeneity in Ring Polymer Melts: From Semiflexible to Stiff Chain

Ring polymers are an intriguing class of polymers with unique physical properties, and understanding their behavior is important for developing accurate theoretical models. In this study, we investigate the effect of chain stiffness and monomer density on the static and dynamic behaviors of ring polymer melts using molecular dynamics simulations. Our first focus is on the non-Gaussian parameter of center-of-mass displacement as a measure of dynamic heterogeneity, which is commonly observed in glass-forming liquids. We find that the non-Gaussianity in the displacement distribution increases with the monomer density and stiffness of the polymer chains, suggesting that excluded volume interactions between centers of mass have a strong effect on the dynamics of ring polymers. We then analyze the relationship between the radius of gyration and monomer density for semiflexible and stiff ring polymers. Our results indicate that the relationship between the two varies with chain stiffness, which can be attributed to the competition between repulsive forces inside the ring and from adjacent rings. Finally, we study the dynamics of bond-breakage virtually connected between the centers of mass of rings to analyze the exchanges of intermolecular networks of bonds. Our results demonstrate that the dynamic heterogeneity of bond-breakage is coupled with the non-Gaussianity in ring polymer melts, highlighting the importance of the bond-breaking method in determining the intermolecular dynamics of ring polymer melts. Overall, our study sheds light on the factors that govern the dynamic behaviors of ring polymers.

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