Polyelectrolyte Complex-Covalent Interpenetrating Polymer Network Hydrogels

15 March 2022, Version 1
This content is a preprint and has not undergone peer review at the time of posting.

Abstract

Polyelectrolyte complex (PEC) hydrogels possess a rich microstructural diversity and tunability of shear response, self-healing attributes, and pH- and salt-responsiveness. Yet, their utility in biotechnology and biomedicine has been limited, owing to their weak mechanical strength and uncontrolled swelling. Here, we introduce a strategy to overcome these drawbacks of PEC hydrogels by interlacing the electrostatically crosslinked PEC network with a covalently crosslinked polymer network, creating polyelectrolyte complex-covalent interpenetrating polymer network (PEC-IPN) hydrogels. In the PEC-IPN hydrogels demonstrated here, composed of oppositely charged ABA triblock copolymers and photocrosslinkable 4-arm poly(ethylene oxide) (PEO), the PEC network self-assembles swiftly in aqueous environs, providing structural rigidity and serving as protective scaffoldings for the covalently crosslinkable PEO precursors. Photocrosslinking of the PEO chains creates a covalent network, supplying structural reinforcement to the PEC network. The resulting PEC-IPN hydrogels possess significantly improved shear and tensile strength, swelling characteristics, and mechanical stability in saline environments while preserving the intrinsic features of PEC networks, including the mesoscale network structure and salt-responsiveness. We envision that our approach to produce PEC based IPN hydrogels will pave the way for creation of self-assembled hybrid materials that harness the unique attributes of electrostatic self-assembly pathways, with broad applications in biomedicine.

Keywords

Interpenetrating polymer network hydrogels
Electrostatic self-assembly
Polyelectrolyte complexation
Block copolymers
Polyelectrolytes

Supplementary materials

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Description
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Supplementary Movie 1
Description
Movie SM1. Movie depicting the injection, settling, and insolubility upon shaking of PEC hydrogels with C_bPE= 10 wt%. The PEC hydrogels consisted of bPEs functionalized with guanidinium and sulfonate groups.
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Supplementary Movie 2
Description
Movie SM2. Movie depicting the injection, settling, and insolubility upon shaking of PEC+PEO hydrogels with C_bPE= 10 wt% and C_PEO= 5 wt%. The PEC+PEO hydrogels consisted of bPEs functionalized with guanidinium and sulfonate groups.
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Supplementary Movie 3
Description
Movie SM3. Movie depicting the injection, settling, and solubility upon shaking of PEO precursor polymers with C_PEO= 5 wt%.
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