Programming Hydrogel Mechanics via Sequence-Controlled Polymerization Using Peptide Self-Assembly
Abolfazl S. Moghaddam, Maahi Zaman, Sz-Chian Liou, E. Thomas Pashuck

TL;DR
This paper introduces a new method to strengthen hydrogels using self-assembling peptides and controlled polymerization, inspired by natural biopolymers.
Contribution
A modular strategy combining peptide self-assembly and sequence-controlled polymerization to enhance hydrogel mechanical properties.
Findings
Peptide sequences were tuned to control supramolecular organization and enable efficient topotactic polymerization.
Hydrogels with DA-PAs showed 200-fold increased stiffness and over 1,000-fold increased viscous dissipation.
Modifying PEG cross-linker chemistry modulated hydrogel stiffness by nearly an order of magnitude.
Abstract
Hydrogels often have poor mechanical properties due to their high water content and low polymer concentration, which limits their utility in applications that require them to withstand applied forces. Inspired by natural biopolymers such as collagen and actin, which form highly extended fibrillar networks that stiffen biological tissues, we developed a modular strategy that utilizes self-assembling peptides to direct the formation of covalently polymerized diacetylene networks in hydrogels. By systematically tuning peptide sequences, we precisely controlled the supramolecular organization and molecular orientation within the self-assembled nanofibers. This optimization enabled efficient topotactic polymerization of diacetylene moieties within the self-assembling peptides. Peptide sequences that readily promoted polymerization formed hydrogels with superior viscoelastic properties.…
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Taxonomy
TopicsSupramolecular Self-Assembly in Materials · Polydiacetylene-based materials and applications · Hydrogels: synthesis, properties, applications
