Journal
ACS MACRO LETTERS
Volume 3, Issue 12, Pages 1225-1229Publisher
AMER CHEMICAL SOC
DOI: 10.1021/mz500686w
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Funding
- Advantage West Midlands (AWM)
- European Regional Development Fund (ERDF)
- University of Warwick
- Institute of Advanced Study
- Institute of Advanced Study, University of Warwick
- Royal Society
- Medical and Life Sciences Research Fund (Warwick)
- General Charities of the City of Coventry for Bursaries
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Thermoresponsive polymers have attracted huge interest as a way of developing smart/adaptable materials for biomedicine, particularly due to changes in their solubility above the LCST. However, temperature is not always an appropriate or desirable stimulus given the variety of other cellular microenvironments that exist, including pH, redox potentials, ionic strength, and metal ion concentration. Here, we achieve a highly specific, isothermal solubility switch for poly(N-isopropylacrylamide) by application of ferric iron (Fe3+), a species implicated in a range of neurodegenerative conditions. This is achieved by the site-specific incorporation of (Fe3+-binding) catechol units onto the polymer chain-end, inspired by the mechanism by which bacterial siderophores sequester iron from mammalian hosts. The ability to manipulate the hydrophilicity of responsive systems without the need for a temperature gradient offers an exciting approach toward preparing increasingly selective, targeted polymeric materials.
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