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Spontaneous Nanoparticle Dispersal in Polybutadiene by Brush-Forming End-Functional Polymers

Hart, James M.; Kimani, Solomon M.; Hutchings, Lian R.; Grillo, Isabelle; Hughes, Arwel V.; Clarke, Nigel; Garcia-Sakai, Victoria; Rogers, Sarah E.; Mendis, Budhika; Thompson, Richard L.

Spontaneous Nanoparticle Dispersal in Polybutadiene by Brush-Forming End-Functional Polymers Thumbnail


James M. Hart

Solomon M. Kimani

Isabelle Grillo

Arwel V. Hughes

Nigel Clarke

Victoria Garcia-Sakai

Sarah E. Rogers

Budhika Mendis


A masterbatch additive for the enhanced dispersal of bare silica nanoparticles in polybutadiene is demonstrated using tetrahydroxyl end-functional polybutadienes (“4OH-PBd”). Neutron reflectometry and small-angle neutron scattering (SANS) confirm the efficient end-adsorption of 4OH-PBd at a planar silica interface and silica particle interfaces of increasing complexity. SANS on well-defined model Stöber silica nanospheres in polybutadiene revealed spontaneous 4OH-PBd adsorption, forming a “shell” around the silica nanospheres. Analysis using a core–shell fractal model showed that the extent of adsorption was consistent with the interfacial excess determined by NR. The utility of 4OH-PBd additives to disperse silica nanoparticles was explored rigorously for a range of compositions and additives. Successful silica nanoparticles dispersal was evident from a reduction in the correlation length of the largest structures in the mixture and increase in fractal dimension, ascribed to a breakdown of percolating nanoparticle aggregates to smaller, denser clusters. A critical surface concentration of 4OH-PBd is identified, which is necessary to inhibit particle–particle aggregation. Scaling theory analysis over four different molecular weights of 4OH-PBd and several concentrations indicates that the transition in silica dispersal coincides closely to the transition from “mushroom” to “brush” scaling of the adsorbed 4OH-PBd. Rheological testing on the same composites yielded a dramatic decrease in moduli with increasing 4OH-PBd: silica ratio, particularly at low frequencies, which is consistent with the breakdown of large aggregates evidenced by SANS. Additives of this type could significantly simplify the processing of nanocomposites by eliminating the need for prior functionalization of the nanoparticles.


Hart, J. M., Kimani, S. M., Hutchings, L. R., Grillo, I., Hughes, A. V., Clarke, N., …Thompson, R. L. (2016). Spontaneous Nanoparticle Dispersal in Polybutadiene by Brush-Forming End-Functional Polymers. Macromolecules, 49(4), 1434-1443.

Journal Article Type Article
Acceptance Date Oct 22, 2015
Online Publication Date Feb 2, 2016
Publication Date Feb 23, 2016
Deposit Date Feb 8, 2016
Publicly Available Date Feb 2, 2017
Journal Macromolecules
Print ISSN 0024-9297
Electronic ISSN 1520-5835
Publisher American Chemical Society
Peer Reviewed Peer Reviewed
Volume 49
Issue 4
Pages 1434-1443


Accepted Journal Article (1.2 Mb)

Copyright Statement
This is an open access article published under a Creative Commons Attribution (CC-BY) License, which permits unrestricted use, distribution and reproduction in any medium, provided the author and source are cited

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