In this review, we focus on the very recent developments on the use of the stimuli responsive
properties of polymer hydrogels for targeted drug delivery, tissue engineering, and …

The translational therapies to promote interaction between cell and signal come with
stringent eligibility criteria. The chemically defined, hierarchically organized, and simpler yet …

Self-assembling short peptides have attracted widespread interest due to their tuneable,
biocompatible nature and have potential applications in energy materials, tissue …

Short peptide hydrogels are attractive biomaterials but typically suffer from limited
mechanical properties. Inclusion of other nanomaterials can serve the dual purpose of …

Self-assembling peptide-based hydrogels are a class of tunable soft materials that have
been shown to be highly useful for a number of biomedical applications. The dynamic …

Ionic charge transport is a ubiquitous language of communication in biological systems. As
such, bioengineering is in constant need of innovative, soft, and biocompatible materials that …

Various biofunctional hydrogel materials can be fabricated in aqueous media through the
self-assembly of peptide derivatives, forming supramolecular nanostructures and their three …

Because of their commanding properties, ultrashort and short peptides are gaining
significance as viable candidates for molecular self-assembly, which is a naturally inspired …

Amphiphilic peptides can be self-assembled by establishing physical cross-links involving
hydrogen bonds and electrostatic interactions with divalent ions. The derived hydrogels …

Short and ultra‐short peptides have been recently envisioned as excellent building blocks
for the formulation of hydrogels with appealing properties. Due to its simplicity and capability …