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Nanoparticle Mobility within Permanently Cross-Linked Polymer Networks

Yulong Chen, Rui Ma, Xin Qian, Ruoyu Zhang, Xifu Huang, Haohao Xu, Mi Zhou, Jun Liu

2020Macromolecules46 citationsDOI

Abstract

Coarse-grained molecular dynamics simulations were performed to investigate the mobility of nanoparticles (NPs) embedded in end-linked polymer networks, considering both the entangled and unentangled cases. For the entangled case, where the network strand length Nx is longer than the entanglement length Ne, the strand dynamics exhibits a heavily entangled subdiffusive feature before being restricted within the fluctuation distance dfluct by the permanent cross-links. The dynamics of NPs with size dNP smaller than the entanglement tube length dT in such network follows the same behavior as that in entangled linear polymers, while for NPs with size comparable to dT, their motion is suppressed by the entanglements. The constraint release of the entanglements would allow the particles to pass through but is slightly restricted by the permanent network junctions. For the unentangled case, where Nx/Ne < 1, the network strands can move only locally with suppressed subdiffusive behavior due to the restrictions imposed by the adjacent network junctions. Consequently, the coupled NP dynamics is also reduced. In addition, when dNP is larger than the strand fluctuation distance dfluct, the NPs are trapped by the network cages and can diffuse at long times through hopping, which is partially masked by the NP thermal fluctuations, as reflected from the NP trajectories. Such hopping fashion of NP motion becomes more apparent with increasing the network confinement ratio before being permanently localized within the network. Increasing the NP–polymer attraction would further hamper the NP mobility. In general, this work provides some insights into understanding how the permanent cross-links affect the network dynamics and thereby the coupled NP mobility.

Topics & Concepts

Quantum entanglementPolymerNanoparticleMolecular dynamicsDynamics (music)Chemical physicsWork (physics)PhysicsNanotechnologyMaterials scienceStatistical physicsChemistryQuantum mechanicsNuclear magnetic resonanceAcousticsQuantumMaterial Dynamics and PropertiesPolymer Nanocomposites and PropertiesCarbon Nanotubes in Composites
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