Manipulating three-dimensional gel network entanglement by thin film shearing

Harshita Kumari; Steven R. Kline; Stuart R. Kennedy; Christopher Garvey; Colin L. Raston; Jerry L. Atwood; Jonathan W. Steed

Journal ArticleOPEN ACCESS

Manipulating three-dimensional gel network entanglement by thin film shearing

Chemical Communications (2016) 52(24) 4513-4516

DOI: 10.1039/c6cc00171h

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Abstract

Vortex fluidic mediated shearing of supramolecular gels in thin films leads to complete disruption of fluorous bis-urea derived gels. Hydrocarbon analogues however, are only partially disrupted, which emphasizes the resistance of non-fluorous bis-urea gelators towards shear. The gel structures have been studied by combining the thin film shearing with small angle neutron scattering. This technique represents a novel approach to study the effects of external stimuli on self-assembled supramolecular gel networks.

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Kumari, H., Kline, S. R., Kennedy, S. R., Garvey, C., Raston, C. L., Atwood, J. L., & Steed, J. W. (2016). Manipulating three-dimensional gel network entanglement by thin film shearing. Chemical Communications, 52(24), 4513–4516. https://doi.org/10.1039/c6cc00171h

Manipulating three-dimensional gel network entanglement by thin film shearing

Abstract

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