A Smart Supramolecular Hydrogel Exhibiting pH‐Modulated Viscoelastic Properties

Abstract: The macroscopic viscoelastic properties of a physical hydrogel are reversibly modulated by tuning the microscopic hydrogen‐bonding interactions with pH. The hydrogel forms at a rather low concentration of the multi‐pyridyl‐based gelator, N, N′, N″‐tris(3‐pyridyl)trimesic amide. The yield stress of the hydrogel is greatly enhanced from 10 to 769 Pa by changing the pH from 7.0 to 5.0. At pH 7.0, the amide molecules are assembled into an ordered structure as a result of the hydrogen bonds between the amide N–H bo… Show more

“…Self‐assembly phenomena and supramolecular concepts are of keen interest in manifold scientific areas 1–9. For example, self‐assembly of small molecules into supramolecular nanofibers in organic liquids or water has been demonstrated and is utilized to efficiently prepare thermoreversible organo‐10–13 and hydrogels 14–18. However, very little is known about the formation of stable nanofiber webs and the intrinsic stability in the dried state.…”

Supramolecular Nanofiber Webs in Nonwoven Scaffolds as Potential Filter Media

“…Self‐assembly phenomena and supramolecular concepts are of keen interest in manifold scientific areas 1–9. For example, self‐assembly of small molecules into supramolecular nanofibers in organic liquids or water has been demonstrated and is utilized to efficiently prepare thermoreversible organo‐10–13 and hydrogels 14–18. However, very little is known about the formation of stable nanofiber webs and the intrinsic stability in the dried state.…”

Supramolecular Nanofiber Webs in Nonwoven Scaffolds as Potential Filter Media

“…Stupp and co-workers have obtained pH-responsive hydrogels constructed by nanofibers with 12 derivatives of peptide-amphiphile molecules [32]. Xu, Li, and coworkers created a reversible sol-gel transition modulated by pH from a multipyridyl-based supergelator [33]. In addition, Hamachi and co-workers reported a pH-responsive supramolecular hydrogel composed of two small amphiphilic molecules [34].…”

A facile route to design pH-responsive viscoelastic wormlike micelles: Smart use of hydrotropes

“…Gelation can be reversibly induced by changes in external environments, such as pH19, 20 and temperature 21, 22. Shear‐reversibly crosslinked hydrogels, which can recover gel structures from shear‐induced breakdown, are attractive for the delivery of therapeutics, including cells, as gels can flow like a liquid when injected but re‐gel once placed in the body.…”

Shear‐reversibly Crosslinked Alginate Hydrogels for Tissue Engineering