Issue 7, 2021

Hydration influences on the phase heterogeneity of segmented copolymers

Abstract

We elucidate the influences of hydration on the morphological heterogeneity of the class of hard–soft segmented copolymers by experimenting on three model members selected from this group. For influences on phase segmentation, we quantify the degree of phase separation, segment boundary diffusiveness and extent of interphase mixing. Qualitative variations induced by hydration in hydrogen bonding within the phases are also mapped. An inverse relationship between the degree of segmentation and inherent water miscibility of the polymer backbones is observed, that is, high miscibility reducing the degree of segmentation, whereas poor miscibility increasing it. We then quantify hydration induced variations in the size, volume fraction and interaction pair potentials of individual hard segments. The influences on hard segment assemblies are assessed by quantifying their size, volume fraction, interaction pair potential and intrasegment adhesion. This quantification reveals a complex interplay between the volume expansion of individual hard segments and simultaneous swelling and disassembly of their assemblies. Finally, we integrate the segmentation parameters with observed alterations in hydrogen bonding and the inherent polarizability of segments to present a mechanism that reasonably describes the hydrated state morphology. Besides revealing the influences of hydration on the morphological heterogeneity of this class of polymers, our insights give strategies for new synthesis methods for water contact applications and aids in predicting their hydration induced thermomechanical property alterations.

Graphical abstract: Hydration influences on the phase heterogeneity of segmented copolymers

Supplementary files

Article information

Article type
Paper
Submitted
14 Jul 2020
Accepted
23 Nov 2020
First published
24 Nov 2020

Soft Matter, 2021,17, 1850-1860

Hydration influences on the phase heterogeneity of segmented copolymers

S. S. Edatholath, M. R. Chandan, V. K. Aswal, S. K. Rath and G. Harikrishnan, Soft Matter, 2021, 17, 1850 DOI: 10.1039/D0SM01287D

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