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Photodegradable polyacrylamide tanglemers enable spatiotemporal control over chain lengthening in high-strength and low-hysteresis hydrogels. | LitMetric

AI Article Synopsis

  • Covalent hydrogels face a "stiffness-toughness conflict," where more crosslinking makes them stiffer but also more brittle and less stretchy.
  • Recent developments have led to the creation of "tanglemers," which are highly entangled hydrogels made by adjusting polymerization conditions to balance polymer chain density and minimize crosslinkers.
  • Researchers synthesized and studied polyacrylamide tanglemers using a special crosslinker that allows for assessing entanglements; they found that methods like crosslink photocleavage can enhance gel toughness, extensibility, and control over how gels respond to stress and release substances.

Article Abstract

Covalent hydrogel networks suffer from a stiffness-toughness conflict, where increased crosslinking density enhances the modulus of the material but also leads to embrittlement and diminished extensibility. Recently, strategies have been developed to form highly entangled hydrogels, colloquially referred to as tanglemers, by optimizing polymerization conditions to maximize the density and length of polymer chains and minimize the crosslinker concentration. It is challenging to assess entanglements in crosslinked networks beyond approximating their theoretical contribution to mechanical properties; thus, in this work, we synthesize and characterize polyacrylamide tanglemers using a photolabile crosslinker, which allows for direct assessment of covalent trapping of entanglements under tension. Further, this chemistry allows tuning of the modulus by crosslink photocleavage (from tensile modulus () = 100 kPa to <25 kPa). Beyond cleavage of crosslinks, we demonstrate that even non-degradable tanglemer formulations can be photo-softened and completely degraded through Fe-mediated oxidation of the polyacrylamide backbone. While both photodegradation methods are useful for spatial patterning and result in softer gels with reduced fracture strength, only crosslink photocleavage improves gel extensibility light-induced chain lengthening ( = 700% to >1500%). Crosslink photocleavage in tanglemers also affords significant control over localized swelling and diffusivity. In sum, we introduce a simple and user-directed approach for probing entanglements and asserting spatiotemporal control over stress-strain responses and small molecule diffusivity in polyacrylamide tanglemers, suggesting a multitude of potential soft matter applications including controlled release and tunable bioadhesive interfaces.

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Source
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11626382PMC
http://dx.doi.org/10.1039/d4tb02149eDOI Listing

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