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Polymers Diffusivity Encoded by Stimuli‐Induced Phase Transition: Theory and Application to Poly(N‐Isopropylacrylamide) with Hydrophilic and Hydrophobic End Groups
Authors:Sjören Schweizerhof  Dan Eugen Demco  Ahmed Mourran  Radu Fechete  Martin Möller
Affiliation:1. DWI‐Leibniz‐Institute for Interactive Materials, e.V., RWTH‐Aachen University, Aachen, Germany;2. Department of Physics and Chemistry, Technical University of Cluj‐Napoca, Cluj‐Napoca, Romania;3. Institute of Technical and Macromolecular Chemistry, RWTH‐Aachen University, Aachen, Germany
Abstract:The self‐diffusion of various nano‐objects investigated by high‐resolution nuclear magnetic resonance diffusometry proves to be an efficient method for the characterization of dynamics, aggregation kinetic, and matrix morphology. This study investigates how the two‐state model and Boltzmann function approach can be used for the evaluation of the thermodynamic parameters of temperature‐induced phase transition encoded in polymer diffusivity. The characteristics of the phase transition given by the transition temperature, change of entropy, and width of transition are obtained for poly(N‐isopropylacrylamide) (PNIPAm) linear polymers with hydrophilic and hydrophobic end‐group functionalization. The effect of end groups upon the polymer diffusivity is investigated as a function of molecular weight (M n), from which fractal dimensions and hydrodynamic drag coefficients are obtained. The PNIPAm diffusivity is affected strongly by the end groups, and it is reflected in the hydrodynamic radius dependence upon molecular weight that obeys different power‐law relations. In this study, the synthesis of α‐ω‐heterotelechelic PNIPAm of different molecular weights with a thiol end group and a hydrophilic NIPAm‐like as well as a hydrophobic benzyl end group are described by reversible addition–fragmentation chain‐transfer polymerization.
Keywords:diffusion  end‐group functionalization  NMR  poly(N‐isopropylacrylamide)  temperature‐induced phase transition
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