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Combined experimental and theoretical investigations of clay polymer nanocomposites: intercalation of single bifunctional organic compounds in Na+-montmorillonite and Na+-hectorite clays for the design of new materials

Boulet, P.; Bowden, A.A.; Coveney, P.V.; Whiting, A.

Authors

P. Boulet

A.A. Bowden

P.V. Coveney



Abstract

This paper reports a study of the intercalation of single bifunctional poly(ethylene oxide)- and poly(propylene oxide)- based compounds, with and without modified end groups, in Na+-montmorillonite and Na+-hectorite clays as the starting point for the design of new non-exfoliated clay-polymer materials. The terminal functional groups employed on intercalated poly(ethylene oxide) and poly(propylene oxide) include acrylate, methacrylate and amine functions. For some of the monomers, in situ polymerisation was observed. Attempts to rationalise these behaviours are made on the basis of atomistic grand canonical Monte Carlo, canonical Monte Carlo and molecular dynamics simulations. Poly(ethylene oxide) diacrylate monomers, for which in situ polymerisation was observed, interact more strongly with the Na+-montmorillonite clay layers than the other monomers.

Citation

Boulet, P., Bowden, A., Coveney, P., & Whiting, A. (2003). Combined experimental and theoretical investigations of clay polymer nanocomposites: intercalation of single bifunctional organic compounds in Na+-montmorillonite and Na+-hectorite clays for the design of new materials. Journal of materials chemistry, 13(10), 2540-2550

Journal Article Type Article
Publication Date 2003
Journal Journal of Materials Chemistry
Print ISSN 0959-9428
Electronic ISSN 1364-5501
Publisher Royal Society of Chemistry
Peer Reviewed Peer Reviewed
Volume 13
Issue 10
Pages 2540-2550
Public URL https://durham-repository.worktribe.com/output/1571679



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