Abstract

Polymer-layered silicate nanocomposites may be formed by annealing layered silicate particles with a polymer melt. Polymer molecules flow from a bulk melt into the galleries between silicate sheets, swelling the silicate structure. The use of an amphiphilic intercalant raises possibilities of forming novel structures and enhancing the intercalation kinetics relative to the case of homopolymer intercalants. We perform molecular dynamics simulations of the flow of a symmetric diblock copolymer from a bulk melt into a slit whose surfaces are modified by grafted surfactant chains, and whose walls are maintained at a constant pressure to permit the slit to open as polymer intercalates. Intercalation kinetics are examined for a variety of polymer–surface and interblock interactions and for thermodynamic states in which the bulk polymer occupies either a lamellar or disordered phase. Comparison to previous simulations of homopolymer intercalation demonstrates that diblock copolymers may be used to intercalate a block that would not spontaneously intercalate as a homopolymer.

Keywords

Intercalation (chemistry)SilicatePolymerCopolymerMaterials scienceLamellar structureChemical engineeringMolecular dynamicsKineticsPolymer chemistryChemical physicsChemistryComposite materialOrganic chemistryComputational chemistry

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Publication Info

Year
2000
Type
article
Volume
112
Issue
20
Pages
9112-9119
Citations
41
Access
Closed

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Jae Youn Lee, Arlette R. C. Baljon, Dotsevi Y. Sogah et al. (2000). Molecular dynamics study of the intercalation of diblock copolymers into layered silicates. The Journal of Chemical Physics , 112 (20) , 9112-9119. https://doi.org/10.1063/1.481538

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DOI
10.1063/1.481538