Block length-dependent phase transition of poly(N-isopropylacrylamide)-b-poly(2-ISOPROPYL-2-OXAZOLINE (cas 10431-99-9)) diblock copolymer in water

Add time:08/01/2019    Source:sciencedirect.com

Poly(N-isopropylacrylamide)-b-Poly(2-isopropyl-2-oxazoline) diblock copolymers have been synthesized via a facile thiol-ene click approach between reversible addition-fragmentation chain transfer (RAFT) polymerized PNIPAM and cationic ring-opening polymerized PiPOx homopolymers. Based on temperature-variable Fourier transform infrared (FTIR) spectra and two-dimensional correlation analysis, the diblock copolymers are proved to exhibit block length-dependent phase transition mechanisms upon heating. The existence of C=O(PiPOx)···D-N(PNIPAM) (hydrogen in H-bond is denoted by the symbol “D” rather than “H” because D2O is used as solvent instead of H2O in the present study) H-bonding interaction is highlighted in PNIPAM40-b-PiPOx15 and proven to be the driving force of the whole transition. These inter-block H-bonds act as physical cross-linking points between PNIPAM and PiPOx segments, triggering the collaborative dehydration of two components. In contrast, C=O(PiPOx)···D-N(PNIPAM) H-bond is absent in PNIPAM40-b-PiPOx46, indicating that the isolation between two blocks is enhanced upon increasing PiPOx length which makes it harder to develop inter-block H-bond. Instead, C=O(PNIPAM)···D-N(PNIPAM) H-bonds develop firstly to initiate the phase transition process, followed by the formation of C=O(PiPOx)···D-O-D···O=C(PiPOx) H-bonds, resulting in relatively independent phase transition mechanisms of these two components.

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