pH Responsive Highly Branched Poly(N-isopropylacrylamide) with Trihistidine or Acid Chain Ends

Swift, Thomas, Lapworth, J., Swindells, K., Swanson, L., Rimmer, Stephen

19 July 2016

Yes / Thermally responsive highly branched poly(N-isopropyl acrylamide)s (HB-PNIPAM) were prepared and end-functionalised to give polymers with acid or trihistidine end groups. These polymers exhibit a broad coil-to-globule transition across a wide temperature range which can be measured using covalently attached fluorescent tags. The acid chain ends provided a material with a distinct change in solution behaviour at pH close to the pKa of the carboxylate group. At pH 11 this polymer did not show a cloud point up to 50 °C but fluorescence measurements on the labelled polymers showed that a coil to glubule transition did take place. The globular state, above the LCST, appeared to be more swollen if the end group carried charge then when it was uncharged. A polymer with trihistidine and free carboxylate chain ends, which contained multiple charges at various pH, did show LCSTs at all pH and the polymer globule was shown to be swollen at each pH.

Polymers

Trihistidine

Carboxylate chain ends

Acid chain ends

Thermal responsiveness

Thermally switchable polymers achieve controlled Escherichia coli detachment

Hook, A.L., Chang, Chien-Yi, Scurr, D.J., Langer, R., Anderson, D.G., Williams, P., Davies, M.C., Alexander, M.R.

02 April 2014

Yes / The thermally triggered release of up to 96% of attached uropathogenic E. coli is achieved on two polymers with opposite changes in surface wettability upon reduction in temperature. This demonstrates that the bacterial attachment to a surface cannot be explained in terms of water contact angle alone; rather, the surface composition of the polymer plays the key role. / Wellcome Trust (grant number 085245) and the NIH (grant number R01 DE016516)

Switchable polymers

Thermal responsiveness

ToF-SIMS

Escherichia coli