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Molecular structure of Bottlebrush polymers in melts

Publication ,  Journal Article
Paturej, JL; Sheiko, SS; Panyukov, S; Rubinstein, M
Published in: Science Advances
2016

Bottlebrushes are fascinating macromolecules that display an intriguing combination of molecular and partic-ulate features having vital implications in both living and synthetic systems, such as cartilage and ultrasoft elastomers. However, the progress in practical applications is impeded by the lack of knowledge about the hierarchic organization of both individual bottlebrushes and their assemblies. We delineate fundamental cor-relations between molecular architecture, mesoscopic conformation, and macroscopic properties of polymer melts. Numerical simulations corroborate theoretical predictions for the effect of grafting density and side-chain length on the dimensions and rigidity of bottlebrushes, which effectively behave as a melt of flexible filaments. These findings provide quantitative guidelines for the design of novel materials that allow architec-tural tuning of their properties in a broad range without changing chemical composition.

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Published In

Science Advances

DOI

ISSN

2375-2548

Publication Date

2016
 

Citation

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Paturej, J. L., Sheiko, S. S., Panyukov, S., & Rubinstein, M. (2016). Molecular structure of Bottlebrush polymers in melts. Science Advances. https://doi.org/10.1126/sciadv.1601478
Paturej, Jaros law, Sergei S. Sheiko, Sergey Panyukov, and Michael Rubinstein. “Molecular structure of Bottlebrush polymers in melts.” Science Advances, 2016. https://doi.org/10.1126/sciadv.1601478.
Paturej JL, Sheiko SS, Panyukov S, Rubinstein M. Molecular structure of Bottlebrush polymers in melts. Science Advances. 2016;
Paturej, Jaros law, et al. “Molecular structure of Bottlebrush polymers in melts.” Science Advances, 2016. Manual, doi:10.1126/sciadv.1601478.
Paturej JL, Sheiko SS, Panyukov S, Rubinstein M. Molecular structure of Bottlebrush polymers in melts. Science Advances. 2016;

Published In

Science Advances

DOI

ISSN

2375-2548

Publication Date

2016