分子动力学
小泡
共聚物
聚合
化学物理
星团(航天器)
化学
胶束
聚合物
伞式取样
自组装
单体
聚合度
乙二醇
乳液聚合
高分子化学
化学工程
材料科学
纳米技术
膜
计算化学
物理化学
有机化学
工程类
水溶液
计算机科学
生物化学
程序设计语言
作者
Fabrice Brunel,Jennifer Lesage de la Haye,Muriel Lansalot,Franck D’Agosto
标识
DOI:10.1021/acs.jpcb.9b03622
摘要
Investigations of polymerization-induced self-assembly in emulsion were conducted using molecular dynamics simulations. Using umbrella sampling and the weighted histogram analysis method algorithm, we calculated the interaction free energy between different self-assembled copolymer aggregates. In the presence of poly(ethylene glycol) (PEG) side chains at 80 °C, an attractive interaction between the copolymer micelles is observed. This attractive well is followed, in some case, by a repulsive barrier depending on the position of the PEG side chains. The strength of this repulsive barrier controls the aggregation kinetics: a strong repulsive barrier leads to slower aggregation rate and thus larger and denser clusters (i.e., reaction-limited cluster aggregation). These clusters then coalesce into large vesicles due to the presence of interstitial water molecules in the cluster. Inversely, a weak repulsive barrier causes rapid aggregation, which gives loose and ramified clusters (i.e., diffusion-limited cluster aggregation) that coalesce after swelling with a hydrophobic monomer, leading to tubular nanostructures and small vesicles. This new mechanism approach can explain the change of morphology from spheres to fibers and vesicles depending on the polymer architecture in the case of polymerization-induced self-assembly (PISA) in emulsion.
科研通智能强力驱动
Strongly Powered by AbleSci AI