Ion-Specific Interactions Engender Dynamic and Tailorable Soft Matter Properties in Biomimetic Cationic Polyelectrolytes

15 April 2024, Version 1
This content is a preprint and has not undergone peer review at the time of posting.

Abstract

Biomaterials such as spider silk and mussel byssi are fabricated by the dynamic manipulation of intra- and intermolecular biopolymer interactions. Organisms modulate solution parameters, such as pH and ion co-solute concentration, to effect these processes. These biofabrication schemes provide a conceptual framework to develop new dynamic and responsive abiotic soft material systems. Towards these ends, the chemical diversity of readily available ionic compounds offers a broad palette to manipulate the physicochemical properties of polyelectrolytes via ion-specific interactions. In this study, we show for the first time that the ion-specific interactions of biomimetic polyelectrolytes engenders a variety of phase separation behaviors, creating dynamic, thermal and ion responsive soft matter. that exhibits a spectrum of physical properties, spanning viscous fluids, to viscoelastic and viscoplastic solids. These ion dependent characteristics are further rendered general by the merger of lysine and phenylalanine into a single, amphiphilic vinyl monomer. The unprecedented breadth, precision, and dynamicity in the reported ion dependent phase behaviors thus introduce a broad array of opportunities for the future development of responsive soft matter, properties that are poised to drive developments in critical areas such as chemical sensing, soft robotics, and additive manufacturing.

Keywords

Hofmeister Series
Ion Specific Effects
Chaotrope
Polyelectrolyte
Biomimesis

Supplementary materials

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Title
Ion-Specific Interactions Engender Dynamic and Tailorable Soft Matter Properties in Biomimetic Cationic Polyelectrolytes
Description
Supporting information associated with submitted manuscript.
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