Issue 22, 2014
From the journal:

Nanoscale

The effect of self-sorting and co-assembly on the mechanical properties of low molecular weight hydrogels

Catherine Colquhoun,a   Emily R. Draper,a   Edward G. B. Eden, ORCID logo a   Beatrice N. Cattoz,b   Kyle L. Morris,c   Lin Chen,a   Tom O. McDonald,a   Ann E. Terry,d   Peter C. Griffiths,b   Louise C. Serpellc  and  Dave J. Adams*a  

* Corresponding authors

a Department of Chemistry, University of Liverpool, Crown Street, Liverpool, U.K
E-mail: d.j.adams@liverpool.ac.uk

b School of Science, University of Greenwich, Medway Campus, Central Avenue, Chatham Maritime, Kent ME4 4TB, UK

c School of Life Sciences, Chichester II Building, University of Sussex, Falmer BN1 9QG, UK

d Rutherford Appleton Laboratory, Science and Technology Facilities Council, Didcot, UK

Abstract

Self-sorting in low molecular weight hydrogels can be achieved using a pH triggered approach. We show here that this method can be used to prepare gels with different types of mechanical properties. Cooperative, disruptive or orthogonal assembled systems can be produced. Gels with interesting behaviour can be also prepared, for example self-sorted gels where delayed switch-on of gelation occurs. By careful choice of gelator, co-assembled structures can also be generated, which leads to synergistic strengthening of the mechanical properties.

Graphical abstract: The effect of self-sorting and co-assembly on the mechanical properties of low molecular weight hydrogels

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Article information

DOI
https://doi.org/10.1039/C4NR04039B
Article type
Paper
Submitted
17 Jul 2014
Accepted
22 Sep 2014
First published
24 Sep 2014
This article is Open Access
Creative Commons BY license

Nanoscale, 2014,6, 13719-13725

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The effect of self-sorting and co-assembly on the mechanical properties of low molecular weight hydrogels

C. Colquhoun, E. R. Draper, E. G. B. Eden, B. N. Cattoz, K. L. Morris, L. Chen, T. O. McDonald, A. E. Terry, P. C. Griffiths, L. C. Serpell and D. J. Adams, Nanoscale, 2014, 6, 13719 DOI: 10.1039/C4NR04039B

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